国家级科研项目

1. 国家重点研发计划项目，项目编号：2021YFB3501400，项目名称：新型稀土超磁致伸缩材料共性关键技术研究；起止年月：2021.12-2025.11。

2. 国家自然科学基金重大科研仪器研制项目，批准号：52127807，项目名称：强磁场下高温金属熔体多物性原位测量系统；起止年月：2022.01-2026.12。

3. 国家自然科学基金专项项目（科技活动项目），批准号：52142401，项目名称：冶金学科传统领域转型发展路径战略研究；起止年月：2021.07-2021.12。

4. 国家重点研发计划项目课题子课题，项目名称：高性能超高强汽车用钢关键制造技术基础研究-1；编号：2017YFB0304402-1；任务来源：国家科技部；起止年月：2017年7月至2021年6月。

5. 国家自然科学基金重大项目课题，批准号：51690161；项目名称：强磁场下液/固界面演化机制及晶体生长行为；起止年月：2017.01-2021.12。

6. 国家自然科学基金钢铁联合研究基金重点项目，批准号：U1560207；项目名称：基于洁净钢高效生产的新型电磁冶金技术研究；起止年月：2016.1-2019.12。

7. 国家自然科学基金杰出青年基金资助项目，批准号：51425401，项目名称：冶金过程的外场控制与应用基础，起止年月：2015.1-2019.12。

8. 国家科技重大专项课题，批准号：2012ZX04003-061，项目名称：航空航天高强轻质材料典型零件高速切削工艺及刀具材料研究，起止年月：2012.1-2014.12。

9. 科技部973计划前期研究专项课题，批准号：2011CB612206，项目名称：强磁场作用下新型金属功能材料的梯度、织构设计及其制备，起止年月：2011.4-2013.8。

10. 国家“万人计划”第一批中青年科技创新领军人才项目/科技部创新推进计划中青年科技创新领军人才项目，批准号：2012RA2010，项目名称：电磁冶金新技术基础，起止年月：2015.1-2017.12。

11. 国家自然科学基金面上项目，批准号：51174056，项目名称：强磁场下共晶合金凝固界面前沿溶质迁移行为与界面形态转变机制，起止年月：2012.1-2015.12。

12. 国家自然科学基金中法国际合作研究项目，批准号：51061130557，项目名称：强磁场辅助脉冲电沉积法生长Co基磁性薄膜的基础研究，起止年月：2011.1-2013.12。

13. 国家自然科学基金钢铁联合基金项目，批准号：50374027，项目名称：强磁场作用下金属液中夹杂物的凝集、分散控制及夹杂物的去除和利用，起止年月：2004.1-2006.12。

14. 国家自然科学基金面上项目，批准号：50204004，项目名称：利用强磁场制备高性能金属基复合材料的基础研究，起止年月：2003.1-2003.12。

15. 国家自然科学基金对外交流与合作项目，批准号：50615057，项目名称：亚洲材料电磁过程暑期讲座，起止年月：2006.1-2006.12。

其他纵向科研项目

16. 辽宁省“兴辽英才计划”项目高水平创新创业团队，批准号：XLYC1908002，项目名称：新能源材料与技术能量转换材料与技术创新团队，辽宁省科技厅，起止年月：2020.01-2022.12。

17. 王强 ，编号： LT2017011，项目名称：新能源材料开发与应用技术研究，辽宁省高等学校创新团队支持计划，辽宁省教育厅，起止年月：2017.12-2019.12。

18. 中央高校基本科研业务费创新团队建设项目，批准号：N140901001，项目名称：强磁场下材料过程的传输行为控制与新材料制备，起止年月：2015.1-2017.12。

19. 中央高校基本科研业务费目标导向项目，编号：N160907001，项目名称：颗粒复合膜纳米尺度结构和性能的强磁场调控，起止年月：2017.1-2019.12。

20. 中央高校基本科研业务费重点项目，批准号：N090209001，项目名称：金属薄膜材料的强磁场诱导微观结构演化及其作用机制，起止年月：2010.1-2012.12。

21. 辽宁省十百千高端人才引进工程百人层次项目，批准号：LRS2012207，项目名称：基于高洁净钢生产的新型钢包出钢装置和工艺开发，起止年月：2012.1-2014.12。

22. 辽宁省科技厅科技攻关计划项目，批准号：2011221009，项目名称：高耐磨性、高韧性双金属复合耐磨材料的开发，起止年月：2011.1-2013.12。

23. 教育部新世纪人才计划，批准号：NCET-06-0289，项目名称：强磁场条件下金属材料凝固过程中的传输行为及其控制，起止年月：2007.1-2009.12。

24. 教育部高等学校学科创新引智计划，批准号：B07015，项目名称：电磁冶金与强磁场材料科学与技术创新引智基地，起止年月：2007.1-2016.12。

横向科研项目

25. 山东钢铁股份有限公司莱芜分公司技术合作项目；合同号：2020040300010；项目名称：电磁旋流水口技术改善大圆坯宏观碳偏析问题研究；起止年月：2020.1-2021.12。

26. 山东钢铁股份有限公司莱芜分公司技术合作项目；合同号：2020040300016；项目名称：东大-莱钢技术工业品买卖合同；起止年月：2020.3-2021.12。

27. 鞍钢股份有限公司技术开发项目；合同号：2018040300039；项目名称：基于电磁旋流水口连铸的板坯控流新技术；起止年月：2018.8-2020.6。

28. 攀钢集团有限公司技术开发项目；合同号：2018012600001；项目名称：特钢模铸的钢包电磁开浇技术；起止年月：2018.1-2019.12。

29. 河钢集团唐钢中厚板材有限公司技术开发项目；合同号：2018040300019；项目名称：钢包电磁引流技术的开发及应用；起止年月：2018.6-2019.11。

30. 江苏沙钢集团淮钢特钢股份有限公司技术合作项目；合同号：2017040300020；项目名称：圆坯电磁旋流水口连铸技术产业化关键问题研究；起止年月：2016.12-2017.12。

31. 企业横向课题（莱芜钢铁集团），批准号：2010-0-1-865，项目名称：利用电磁感应加热的新型钢包开浇技术的研发，起止年月：2010.7-2011.12。

32. 山东钢铁股份有限公司莱芜分公司技术合作项目；项目编号：LLJ20220728-01电磁旋流水口；起止年月：2022.07.28。

33. 石钢京诚装备技术有限公司技术开发项目；项目编号：HG2020207；圆坯电磁旋流水口连铸技术研究与应用；起止年月：2022.1.1-2023.12.30。

34. 本溪北营钢铁(集团)股份有限公司技术开发项目；项目编号：BYKJLM202202；电磁旋流智能制造技术提高方坯产品等级研究；起止年月：2022.9.30-2024.9.30。

35. 江阴兴澄特种钢铁有限公司技术开发项目；电磁旋流促进大断面连铸坯均质化研究；起止年月：2023.6.30-2025.6.30。

2025年论文

[1] Zhiyu Ren, Zaiqing Yang, Wangzhong Mu, Tie Liu, Xiaoming Liu*, Qiang Wang*. Ultra-broadband Perfect Absorbers Based on Biomimetic Metamaterials with Dual Coupling Gradient Resonators. Advanced Materials, 2025, 37(11): 2416314.

任志宇 杨在清 牟望重 刘铁 刘晓明* 王强*; IF=26.8; JCR分区Q1; 中科院分区1区

[2] Zhiyu Ren, Sijia Niu, Haixiang Gao, Chenchong Wang, Xiaoming Liu*, Kai Wang, Qiang Wang. Bioinspired Structured Metal-Insulator-Metal Metamaterials with Gradient Resonator for High Efficiency and Solar Selective Absorption. Small, 2025, 21:202501698.

任志宇 牛思佳 高海翔 王晨充 刘晓明* 王凯 王强; IF=12.1; JCR分区Q1; 中科院分区2区

[3] Zhiyu Ren, Tong Zhao, Sijia Niu, Wencheng Chen, Xiaoming Liu*, Wangzhong Mu, Tie Liu, Qiang Wang. Plasmonic metamaterials with closed cells for infrared/visible compatible stealth. Chemical Engineering Journal, 2025, 523: 168812.

任志宇 赵桐 牛思佳 陈稳诚 刘晓明* 牟望重 刘铁 王强; IF=13.2; JCR分区Q1; 中科院分区1区

[4] Xiaolin Shi, Zhiyu Ren, Sijia Niu, Chenchong Wang, Xiaoming Liu*, Kai Wang, Qiang Wang. Highly Efficient ultra-thin solar selective absorber based on Self-assembled tangent Nano-Ball-Cap arrays. Chemical Engineering Journal, 2025, 505, 159459.

施箫琳 任志宇 牛思佳 王晨充 刘晓明* 王凯 王强; IF=13.2; JCR分区Q1; 中科院分区1区

[5] Sijia Niu, Zhiyu Ren, Chenchong Wang*, Xiaoming Liu*, Wangzhong Mu, Qiang Wang. Machine learning-assisted structure design and materials screening of a bilayer thin-film selective thermal emitter for infrared stealth technology. Chemical Engineering Journal, 2025, 509, 161418.

牛思佳 任志宇 王晨充* 刘晓明* 牟望重 王强; IF=13.2; JCR分区Q1; 中科院分区1区

[6] Sijia Niu, Xiaoming Liu*, Chenchong Wang*, Wangzhong Mu, Wei Xu, Qiang Wang. Breaking the trade-off between complexity and absorbing performance in metamaterials through intelligent design. Small       , 2025, 21, 2502828.

牛思佳 刘晓明* 王晨充* 牟望重 徐伟 王强; IF=12.1; JCR分区Q1; 中科院分区2区

[7] Yanwen Sun, Siyuan Zhang, Zeyi Liu, Meijia Sun, Chunlei Wu, Xiaoming Liu*, Yi Yuan, Qiang Wang. Segregation control and dendritic structure improvement of steel plate hot rolled commercial steel by electromagnetic swirling flow. Steel Research International, 2025, 96, 177-187.

孙延文 张思远 刘泽熠 孙美佳 吴春雷 刘晓明* 苑轶 王强; IF=2.5; JCR分区Q2; 中科院分区4区

[8] Siyuan Zhang, Yanwen Sun, Zeyi Liu, Meijia Sun, Xiaoming Liu*, Wangzhong Mu*, Tie Liu, Qiang Wang. Mechanism of inclusions control influenced by electromagnetic swirling flow in nozzle compared to mold electromagnetic stirring. Materials Today Communications, 2025, 44, 112003.

张思远 孙延文 刘泽熠 孙美佳 刘晓明* 牟望重* 刘铁 王强; IF=4.5; JCR分区Q2; 中科院分区3区

[9] Siyuan Zhang, Zeyi Liu, Yanwen Sun, Yiren Li, Jianjun Qi, Meijia Sun, Xiaoming Liu*, Wangzhong Mu, Tie Liu, Qiang Wang. Experimental and simulation study on the effect of electromagnetic swirling flow intensity on non-metallic inclusion behaviors. Journal of Materials Research and Technology, 2025, 38, 1487-1497.

张思远 刘泽熠 孙延文 李毅仁 齐建军 孙美佳 刘晓明* 牟望重 刘铁 王强; IF=6.6; JCR分区Q1; 中科院分区2区

[10] Shiyu Zhang, Chenchong Wang, Meijia Sun, Chen Tian, Wangzhong Mu, Jian Huang, Qiang Fu, Minchuan Guo, Xiaoming Liu*, Qiang Wang. Inducing columnar-to-equiaxed transition by gradient impediment-flow optimization mechanism: The inheritance chain of solidification. International Journal of Heat and Mass Transfer, 2025, 236, 126280.

张时雨 王晨充 孙美佳 田晨 牟望重 黄健 富强 郭民传 刘晓明* 王强; IF=5.8; JCR分区Q1; 中科院分区2区

[11] Zeyi Liu, Siyuan Zhang, Yanwen Sun, Meijia Sun, Xiaoming Liu*, Lijia Zhao, Tie Liu, Qiang Wang. Suppression of macrosegregation in round blooms by coupling electromagnetic swirling flow in the nozzle with mold electromagnetic stirring. Metallurgical and Materials Transactions B, 2025, 56, 5726-5739.

刘泽熠 张思远 孙延文 孙美佳 刘晓明* 赵立佳 刘铁 王强; IF=3.1; JCR分区Q2; 中科院分区3区

[12] Zhiyu Ren, Sijia Niu, Aijing Lv, Xiaoming Liu*, Wangzhong Mu, Tie Liu, Qiang Wang*. Bioinspired photothermal superhydrophobic metamaterial with structured micro-nano crystal arrays for anti-/de-icing. Advanced Materials, 2025, e16655.

任志宇 牛思佳 吕艾静 刘晓明* 牟望重 刘铁 王强*; IF=26.8; JCR分区Q1; 中科院分区1区

[13] Mingdi Lan, Shang Sun, Shiying Liu*, Guojian Li*, Zhe Wang, and Qiang Wang. Improvement of the thermoelectric properties in CNT/Bi2Te3 composite films due to evolution of the depletion layer and point defects under the pulse current field. ACS applied materials interface, 2025 17(4), 7201-7209.

兰明迪 孙尚 刘诗莹* 李国建* 王哲 王强; IF=8.2; JCR分区Q1; 中科院分区2区

[14] Abdelhamid Ait M’hid, Shang Sun, Baoze Zhang, Zhe Wang, Guojian Li*, Mourad Boughrara*, Mohamed Kerouad*, Qiang Wang. Probing the structural, morphological, electronic, and magnetic properties of Co-doped ZnO films grown by magnetron sputtering: A combined experimental, computational, and simulation approach. Journal of Alloys and Compounds, 2025, 1012: 179479.

Abdelhamid Ait M’hid 孙尚 张保泽 王哲 李国建* Boughrara Mourad* Kerouad Mohamed* 王强; IF=6.3; JCR分区Q1; 中科院分区2区

[15] Mingdi Lan*, Guojian Li, Shiying Liu*, Qiang Wang. Effect orientation and phase composition in Bi₂Te₃ films to enhance power factor by high magnetic field treatment. Journal of Alloys and Compounds, 2025, 1030: 180801.

兰明迪* 李国建* 刘诗莹 王强; IF=6.3; JCR分区Q1; 中科院分区2区

[16] Mingdi Lan*, Yuezhong Tan, Shiying Liu, Shang Sun, Zhe Wang, Guojian Li*, Qiang Wang. Atomic migration and grain size are regulated by pulse period to maintain carrier concentration and increase mobility of Bi2Te3 films. Journal of Electronic Materials 2025, 54:10593-10602.

兰明迪* 谭越中 刘诗莹 孙尚 王哲 李国建* 王强; IF=2.5; JCR分区Q2; 中科院分4区

[17] Abdelhamid Ait M’hid, Guojian Li*, Zhe Wang, Baoze Zhang, Shang Sun, Mourad Boughrara, Mohamed Kerouad, Qiang Wang. Structural, magnetic, and electrical property modulation in ZnO and V-and Cr-doped ZnO films via defect engineering. Materials Science and Engineering B. 2025, 323:118818.

Abdelhamid Ait M’hid 李国建* 王哲 张保泽 孙尚 Mourad Boughrara Mohamed Kerouad 王强; IF=4.6; JCR分区Q2; 中科院分区3区

[18] Jinmei Sun, Baoze Zhang, Tie Liu*, Tianru Zhou, Noriyuki Hirota, Qiang Wang. Solute migration and microstructure evolution of the hypereutectic Cu-73.4 wt% Ag alloy during directional solidification under high-gradient magnetic fields. Journal of Materials Science, 2025, 60(16).

孙金妹 张保泽 刘铁* 周天儒 广田宪之 王强; IF=3.9; JCR分区Q2; 中科院分区3区

[19] Siyu Zhang, Tie Liu*, Baoze Zhang, Alexander Dahlström, Sinuo Li, Kai Wang, Wangzhong Mu, Qiang Wang. Crystal orientation-induced Al particle coalescence coarsening during isothermal semisolid annealing of Al-15 wt.% Cu alloys under high magnetic fields. Journal of Materials Research and Technology, 2025, 35:6825-6835.

张思雨 刘铁* 张保泽 Alexander Dahlström 李斯诺 王凯 牟望重 王强; IF=6.2; JCR分区Q1; 中科院分区1区

[20] Siyu Zhang, Baoze Zhang, Tie Liu*, Sinuo Li, Peng Miao, Wangzhong Mu, Kai Wang, Qiang Wang. Effect of high magnetic fields on coarsening behaviors of Al-Cu alloys with high volume fraction of solid particles during semi-solid isothermal annealing. Journal of Alloys and Compounds, 2025:1033.

张思雨 张保泽 刘铁* 李斯诺 王凯 牟望重 王强; IF=5.8; JCR分区Q2; 中科院分区2区

[21] Baoze Zhang, Siyu Zhang, Yanxin Liu, Xiaoyu Guo, Hezhi Yang, Peng Miao, Jingmin Wang, Yonghui Ma, Tie Liu*. Effects of magnetic flux densities and directions on domain structure and magnetostriction of 〈111〉-oriented Tb–Dy–Fe

alloys during annealing in high magnetic fields. Journal of Applied Physics, 2025, 138: 055102.

张保泽 张思雨 刘延新 郭晓玉 杨赫之 苗鹏 王敬民 马永会 刘铁*; IF=2.5; JCR分区Q3; 中科院分区3区

[22] Baoze Zhang, Tie Liu*, Sinuo Li, Xuefeng Yao, Wenzhao Liu, Xiaopeng Yin, Xiaoyu Guo, Qiang Wang. Preferred orientation and microstructure evolution of Al3Ni phase in the Al–18 at% Ni alloy during directional solidification under a high magnetic field. Materials and Solidification. 2025,1(2):9580006.

张保泽 刘铁* 李斯诺 姚雪峰 刘文朝 阴晓鹏 郭晓玉 王强; IF=0; JCR分区Q0; 中科院分区0区

[23] 孙金妹, 张保泽, 刘铁*, 董蒙, 郭晓玉, 王强. 梯度强磁场对定向凝固亚共晶Mn-Sb合金初生相生长及微观组织的影响. 材料开发与应用, 2025, 40(01):13-24.

[24] Yongbo Yuan, Wangzhong Mu*, Chen Tian, Xiaoming Liu, Tie Liu, Qiang Wang In-situ observation of inclusion agglomeration behaviors and its correlation to clogging of nozzle in low-carbon steels with different amounts of Ti and Al addition. Journal of Iron and Steel Research International, 2025, 32: 388-398.

原永博 牟望重* 田晨 刘晓明 刘铁 王强. IF=3.6; JCR分区Q1; 中科院分区2区（封面文章）

[25] Yongbo Yuan, Gang Yang, Changji Xuan, Wangzhong Mu*. A novel method to control the size and chemistry of TiN particles in an inclusion-engineered steel by spark plasma sintering. Journal of Materials Research and Technology, 2025, 36: 10440-10445.

原永博 Gang Yang Changji Xuan 牟望重*. IF=6.6; JCR分区Q1; 中科院分区2区

[26] Gonghao Lian, Xiaoming Liu*, Qiang Wang, Chunguang Shen, Yi Wang, Wangzhong Mu*. Artificial intelligence-assisted non-metallic inclusion particles analysis in advanced steels using machine learning: a review. International Journal of Minerals, Metallurgy and Materials, 2025, 31.

廉功豪 刘晓明* 王强 Chunguang Shen, Yi Wang 牟望重*. IF=7.2; JCR分区Q1; 中科院分区2区

[27] Wangzhong Mu*, Ying Ren, Tongsheng Zhang, Deepoo Kumar, Susanne Michelic, Bryan Webler. Progress of real-time confocal microscopy study on steelmaking and phase transformation in metallic materials. Journal of Iron and Steel Research International, 2025, 32: 313-314.

牟望重* 任英 张同生 Deepoo Kumar Susanne Michelic Bryan Webler; IF=3.6; JCR分区Q1; 中科院分区2区

[28] Yang Wang, Chao Chen*, Xiaoyu Yang, Zhengrui Zhang, Jian Wang, Zhou Li, Lei Chen, Wangzhong Mu*. Solidification modes and delta-ferrite of two types of 316L stainless steels: a combination of as-cast microstructure and HT-CLSM research. Journal of Iron and Steel Research International, 2025, 32: 426-436.

王洋 陈超* Xiaoyu Yang 张正瑞 王健 李周 陈蕾 牟望重*; IF=3.6; JCR分区Q1; 中科院分区2区

[29] Yi Wang, Jian-xun Fu, Deepoo Kumar, Qiang Wang, Hongliang Yang, Wangzhong Mu*. State-of-art of in situ observations of inclusion agglomeration at steel/Ar and steel/slag interfaces: a review of recent development on experimental and theoretical studies. Journal of Iron and Steel Research International, 2025, 32: 315-333.

Yi Wang Jian-xun Fu Deepoo Kumar 王强 Hongliang Yang 牟望重*; IF=3.6; JCR分区Q1; 中科院分区2区

[30] Wei Wang*, Hongliu Wu, Zhou Li, Wangzhong Mu*, Fan Wang, Wenda Zhang, Zhankun Weng. Passivation, layered surface high-temperature oxidation, and mechanical behaviors in Al-doped cobalt-based dual-phase multi-principal element alloys. Applied Surface Science, 2025, 719: 164930.

王嵬* 吴红柳 李周 牟望重* 王帆 张文达 翁占坤; IF=6.9; JCR分区Q1; 中科院分区2区

[31] Wei Wang*, Wangzhong Mu*, Mingzhen Han, Yi Zhang, Wenda Zhang, Zhou Li, Zhankun Weng, Peter K Liaw*. An integration study of corrosion and mechanical behaviors of Ti-/Zr-/Hf-doped cobalt-based high-entropy alloys. Materials & Design, 2025, 256: 114230.

王嵬* 牟望重* 韩明真 张译 张文达 李周 翁占坤 Peter K Liaw*; IF=7.9; JCR分区Q1; 中科院分区2区

[32] Qing Zhu, Keiji Nakajima, Wangzhong Mu*. Characterization of non-metallic inclusions in steels by different extraction methods: a literature review focusing on selection of electrolyte, Journal of iron and steel research international, 2025.

朱庆 Keiji Nakajima 牟望重*; IF=3.6; JCR分区Q1; 中科院分区2区

[33] Chen Tian, Zijun Peng, Lei Yuan, Wangzhong Mu*. Effect of electric field on the interfacebehavior between molten steel and the aluminum-killed steel clogging. International Journal of Applied Ceramic Technology, 2025, 22(6): e70057

田晨 彭子钧 袁磊* 牟望重; IF=2.3; JCR分区Q2; 中科院分区4区

[34] Chen Tian, Zijun Peng, Lei Yuan, Wangzhong Mu*. Interface behavior between the molten steel and submerged entry nozzle controlled by using an external electric field. Journal of the Australian Ceramic Society, 2025.

田晨 彭子钧 袁磊* 牟望重; IF=2.1; JCR分区Q2; 中科院分区4区

[35] Zijun Peng, Chen Tian*, Diyao Zhang, Zhenli Liu, Jingkun Yu, Lei Yuan*. Investigation of the erosion mechanism of fluorine-free mold flux on the submerged entry nozzle under the influence of negative electric field. Journal of Industrial and Engineering Chemistry, 2025, 142(25): 308-391.

彭子钧 田晨* 张棣尧 刘震丽 于景坤 袁磊*; IF=6; JCR分区Q1; 中科院分区3区

[36] Zijun Peng, Chen Tian*, Diyao Zhang, Zhenli Liu, Jingkun Yu, Hongxia Li, Lei Yuan*. Interfacial Wetting and Erosion Behavior between Fluorine-Free Slag and Submerged Entry Nozzle under an External Electric Field. Steel Research International, 2025.

彭子钧 田晨* 张棣尧 刘震丽 于景坤 李红霞 袁磊*; IF=2.5; JCR分区Q2; 中科院分区3区

[37] Yuting Zhou, Zhenli Liu, Chen Tian*. Influence of Oxygen on Copper Corrosion Behavior in Simulated Groundwater. Materials and Corrosion, 2025.

周雨婷 刘震丽 田晨*; IF=2; JCR分区Q2; 中科院分区4区

[38] Mingyuan Ma, Songhan Hu, Yingchun Diao, Kai Wang*, Guojian Li, Wangzhong Mu*, Qiang Wang. Combination of cryogenic and pulsed electric field treatment for enhanced microstructure and mechanical properties of WC-Co cemented carbides. Rare Metals. 2025, 44: 3547-3561.

马明远 胡嵩晗 刁迎春 王凯* 李国建 牟望重* 王强; IF=11.0; JCR分区Q1; 中科院分区1区

[39] Mingyuan Ma, Songhan Hu, Yingchun Diao, Kai Wang*, Guojian Li, Qiang Wang. Study on the martensitic transformation mechanism of binder phase in WC-10Co nanocrystalline cemented carbides. Journal of Materials Research and Technology. 2025, 39: 5565-5572.

马明远 胡嵩晗 刁迎春 王凯* 李国建 王强; IF=6.6; JCR分区Q1; 中科院分区2区

[40] Mingyuan Ma, Yingchun Diao, Zhengtao Lu, Qijun Huang, Kai Wang*, Guojian Li, Qiang Wang. Interface regulation of nanocrystalline WC-10Co cemented carbides for enhanced hardness and fracture toughness balance. Journal of Alloys and Compounds. 2025, 1040: 183708.

马明远 刁迎春 禄正涛 黄启君 王凯* 李国建 王强; IF=6.3; JCR分区Q1; 中科院分区2区

[41] Yingchun Diao, Mingyuan Ma, Guojian Li, Qijun Huang, Kai Wang*, Qiang Wang. Formation of gradient structure by adding Ni and Fe in binder phase of WC-Co-V (C, N) nanocrystalline cemented carbides. Ceramics International. 2025.

刁迎春 马明远 李国建 黄启军 王凯* 王强. IF=5.6; JCR分区Q1; 中科院分区2区

[42] Songhan Hu, Mingyuan Ma, Xinxin Xu, Kai Wang*, and Qiang Wang*. Atmosphere-regulated pyrolysis switches orr pathway on iron-based catalyst for h2o2 synthesis and zn-air batteries. Energy & Environmental Materials. 2025, e70180.

胡嵩晗 马明远 徐欣欣 王凯* 王强*. IF=14.1; JCR分区Q1; 中科院分区1区

[43] Yun Ye, Shuang Yuan*, Xiao Yang, Sitian Song, Qiang Wang*. Oxygen vacancies design of anionic site to optimize electrode-electrolyte interface properties on a li-rich cathode. Nano Letters, 2025, 25(32): 12379-12385.

叶芸 袁双* 杨晓 宋思甜 王强*; IF=9.9; JCR分区Q1; 中科院分区2区

[44] Zhong Wang, Xinjia Tan, Chuhan Wang, Guojian Li, Shuang Yuan*, Mo-doped Ni/NiO as a highly efficient and stable electrocatalyst for the hydrogen evolution reaction. International Journal of Hydrogen Energy, 2025, 166: 151037.

王钟 谭新佳 王楚涵 李国建 袁双*; IF=8.3; JCR分区Q1; 中科院分区2区

[45] Duan X, Wang C H, Lv F S, Liu T, Liu X M, Wang Q, Yuan S*. Design and study N-doped 3D hollow sphere MXene with different nano curvatures as anodes for high-performance lithium-ion capacitors. Electrochim Acta, 2025, 512: 145510.

段晓 王楚涵 吕福森 刘铁 刘晓明 王强 袁双*; IF=5.6; JCR分区Q1; 中科院分区2区

[46] Duan X, Lv F S, Liu J Q, Liu T, Yuan S*. Synergistic effect of MXene and Co₃O₄ nanoneedles: Constructing high-performance lithium-ion capacitor anodes. Solid State Chem, 2025, 350: 125519

段晓 吕福森 刘家岐 刘铁 袁双*; IF: 3.5；JCR分区Q2; 中科院分区3区

[47] Mai Shi, ‡ Xiao Yang, ‡ Fusen Lv, Jiaqi Liu, Tie Liu, Qiang Wang* and Shuang Yuan*. Stable Coal Tar Pitch-Derived Hard Carbon Anodes with Modulated Oxygen Functional Groups for Enhanced Li-Ion Storage. Journal of Materials Chemistry A, 2025, 13, 33466.

石劢‡ 杨晓‡ 吕福森 刘家祁 刘铁 王强* 袁双*；IF=9.5；JCR 分区 Q1；中科院分区2区

[48] Zhicheng Shan, Yi Yuan*, Lixue Yang, Bin Cao, Guojian Li, Qiang Wang. Possibilities and difficulty levels for vertical eddy current separation between different non-ferrous metals. Separation and Purification Technology, 2025, 356: 129933.

单志成 苑轶* 杨立学 曹斌 李国建 王强; IF=9.0; JCR分区Q1; 中科院分区1区

[49] Zhicheng Shan, Yi Yuan*, Lixue Yang, Bin Cao, Guojian Li, Qiang Wang. Key factors affecting the vertical eddy current separation efficiency between Cu and Al particles. Journal of Environmental Management, 2025, 375: 124392.

单志成 苑轶* 杨立学 曹斌 李国建 王强; IF=8.0; JCR分区Q1; 中科院分区2区

[50] Zhicheng Shan, Yi Yuan*, Bin Cao, Shilong Miao, Guojian Li, Qaing Wang. The influence of magnetic field frequency on eddy current separation.Separation Science and Technology,2025, 1-16.

单志成 苑轶* 曹斌 缪诗龙 李国建 王强; IF=2.4; JCR分区Q3; 中科院分区4区

[51] Zhicheng Shan, Yi Yuan*, Shilong Miao, Guojian Li, Qaing Wang. Design and performance of radial multilayer magnetic structure for magnetic roller in eddy current separation. Minerals Engineering, 2025, 229: 109377.

单志成 苑轶* 缪诗龙 李国建 王强; IF=5.0; JCR分区Q1; 中科院分区2区

[52] Zhicheng Shan, Yi Yuan*, Guojian Li, Qaing Wang. Design and performances of squeezing magnetic roller based on NS magnetic system in eddy current separation. Minerals Engineering, 2026, 235: 109854.

单志成 苑轶* 李国建 王强; IF=5.0; JCR分区Q1; 中科院分区2区

[53] Yaning Wang, Yi Yuan*, Yonghui Ma, Guojian Li, Tie Liu, Qiang Wang. Realizing high thermoelectric performance of n-type SnTe through optimizing carrier and resonance level. Chemical Engineering Journal, 2025, 503: 158412.

王雅宁 苑轶* 马永会 李国建 刘铁 王强; IF=13.2; JCR分区Q1; 中科院分区1区

[54] Yaning Wang, Yi Yuan*, Yonghui Ma, Guojian Li, Tie Liu, Wangzhong Mu, Qiang Wang. Entropy engineering in metavalent-bonded SnTe for high thermoelectric performance. Chemical Engineering Journal, 2025, 523: 168264.

王雅宁 苑轶* 马永会 李国建 刘铁 牟望重 王强; IF=13.2; JCR分区Q1; 中科院分区1区

[55] Lijia Zhao*, Hao Gao, Shaolong Sheng, Wenbin Ma, Haibo Liu, Kai Wang, Qiang Wang. Suppressing Friction-Induced Stick–Slip Vibration and Noise of Zinc-Coated Steel through Temper Rolling. Langmuir, 2025, 41(2): 1297-1306.

赵立佳* 高昊 盛绍龙 马文斌 刘海波 王凯 王强; IF=3.9; JCR分区Q2; 中科院分区2区

[56] Hao Gao, Lijia Zhao*, Yueming Shi, Shuangzhong Luo, Qiang Wang. Effects of micro-deformation on the stick-slip and wear behaviors of galvanized steel. Journal of Materials Research and Technology, 2025, 39: 1533-1542.

高昊 赵立佳* 石月明 罗双宗 王强; IF=6.6; JCR分区Q1; 中科院分区2区

[57] Shuai Ma, Ming He, Lijia Zhao*, Xiaoming Liu, Wangzhong Mu, Qiang Wang. Quantitative analysis of heat dissipation and turret rotation effects on vortex formation in steel flow during continuous ladle teeming. Metallurgical and Materials Transactions B, 2025: 1-14.

马帅 何明 赵立佳* 刘晓明 牟望重 王强; IF=3.1; JCR分区Q2; 中科院分区2区

[58] Baoqin Luo, Wenqi Mao, Yankang Zhao, Lijia Zhao, Hao Gao, Wenbin Ma, Shaolong Sheng, Nokeun Park, Pinaki Prasad Bhattacharjee, Qiang Wang. Quantitative analysis of heat dissipation and turret rotation effects on vortex the key role of tempering time over heating rate in carbide refinement and precipitation strengthening. Journal of Materials Research and Technology, 2025, 39: 5092-5102.

罗葆钦 毛文奇 赵炎康 赵立佳* 高昊 马文斌 盛绍龙 Nokeun Park Pinaki Prasad Bhattacharjee 王强; IF=6.6; JCR分区Q1; 中科院分区2区

[59] Wenqi Mao, Wu Gong, Takuro Kawasaki, Si Gao, Tatsuya Ito, Takayuki Yamashita, Stefanus Harjo*, Lijia Zhao, Qiang Wang. Unique deformation behavior of ultrafine-grained 304 stainless steel at 20 K. Scripta Materialia, 2025, 264: 116726.

毛文奇 Gong Wu Kawasaki Takuro Gao Si Ito Tatsuya Yamashita Takayuki Harjo Stefanus* 赵立佳 王强; IF=5.6; JCR分区Q1; 中科院分区2区

[60] Bingjie Zhang, Shewei Xin, Mingda Huang, Jingzhe Niu, Qian Li, Yan Zhang, Xi Pan, Xingwu Li, Jun Cheng, Wenqi Mao*, Tianlong Zhang, Nobuhiro Tsuji. Unique discontinuous yielding mechanism of fine-grained metastable β-type Ti-Nb-Mo alloy. Materials Science and Engineering: A, 2025, 930: 148168.

Zhang Bingjie Xin Shewei Huang Mingda Niu Jingzhe Li Qian Zhang Yan Pan Xi Li Xingwu Cheng Jun 毛文奇* Zhang Tianlong Tsuji Nobuhiro; IF=7; JCR分区Q1; 中科院分区2区

2024年论文

[1] Wei Wang*, Wenyu Zhao, Wangzhong Mu*, Zhou Li, Zhankun Weng, Wenda Zhang, Nan Wang, Peikang Bai. Effect of hot-rolling process on the microstructure, mechanical and corrosion behaviors of dual-phase Co-based entropic alloys. Materials Science and Engineering: A, 2024, 918: 147433.

王嵬* 赵文玉 牟望重* 栗周 翁展坤 张文达 王楠 白鹏凯; IF=6.1; JCR分区Q1; 中科院分区2区

[2] Siyang Zhang, Zeyi Liu, Yi Yuan, Xiangjun Xie, Min Wang, Xiaoming Liu*, Wangzhong Mu*, Tie Liu, Qiang Wang. Removal and distribution behaviors of inclusion particles in the steel melt under different rotation modes during continuous casting. Powder Technology, 2024, 448: 101211.

张思远 刘泽熠 苑轶 谢兴军 王敏 刘晓明* 牟望重* 刘铁 王强; IF=4.5; JCR分区Q1; 中科院分区2区

[3] Xi Wang, Guangqiang Liu, Wangzhong Mu, Tie Liu, Kun Liu, Lianyu Wang*. Enhancement of mass transfer in converter by improving the flow of slag and molten steel. Physics of Fluids, 2024, 36: 103346.

王熙 刘光强 牟望重 刘铁 刘坤 王连钰*; IF=4.1; JCR分区Q1; 中科院分区2区

[4] Yong Wang, Wei Wang*, Joo Hyun Patk, Wangzhong Mu*. Effect of hafnium and molybdenum addition on inclusion characteristics in Co-based dual-phase high-entropy alloys. International Journal of Minerals, Metallurgy and Materials, 2024, 31(7): 1639-1650.

王勇 王嵬* Joo Hyun Park 牟望重*; IF=5.6; JCR分区Q1; 中科院分区2区

[5] Fan chen, Kun Bai, Yong Wang*, Chengsong Liu, Wangzhong Mu, Hua Zhang, Hongwei Ni. Effect of Ce on the Segregation and Secondary-Phase Precipitation During the Solidification of S31254 Super-Austenitic Stainless Steel. Metallurgical and Materials Transactions B, 2024, 55(4): 2097-2114.

陈帆 白坤 王勇* 刘成松 牟望重 张华 倪红卫; IF=2.4; JCR分区Q1; 中科院分区2区

[6] Yang Wang, Chao Chen*, Ruijie Ren, Zhixuan Xue, Haozheng Wang, Yunzhe Zhang, Junxian Wang, Jian Wang, Lei Chen, Wangzhong Mu. Ferrite formation and decomposition in 316H austenitic stainless steel electro slag remelting ingot for nuclear power applications. Materials Characterization, 2024, 218: 114581.

王洋 陈超* 任瑞杰 薛智轩 王昊峥 张赟哲 王俊贤 王佳 陈蕾 牟望重; IF=4.8; JCR分区Q1; 中科院分区2区

[7] Chen Tian, Siyuan Zhang, Xiaoming Liu, Shan Gao, Xingjun Xie, Xiaowei Zhu, Wangzhong Mu, Yi Yuan, Qiang Wang*. Functional failure behavior of submerged entry nozzle during the continuous casting process of the bearing steel GCr15. Steel Research International, 2024, 95: 2400145.

田晨 张思远 刘晓明 高山 谢兴军 牟望重 苑轶 王强*; IF=1.9; JCR分区Q2; 中科院分区3区

[8] Chen Tian, Lei Yuan*, Xiaoming Liu, Qiang Wang*. Effect of the reaction process between the SEN and molten steel containing aluminum by applying an electric field. International Journal of Applied Ceramic Technology, 2024, 21: 417-426.

田晨 袁磊* 刘晓明 王强*; IF=1.8; JCR分区Q2; 中科院分区4区

[9] Wenqi Mao, Si Gao, Wu Gong, Takuro Kawasaki, Tatsuya Ito, Stefanus Harjo*, Nobuhiro Tsuji. Martensitic transformation-governed Lüders deformation enables large ductility and late-stage strain hardening in ultrafine-grained austenitic stainless steel at low temperatures, Acta Materialia, 2024, 278: 120233.

毛文奇 高斯 龚武 Takuro Kawasaki  Tatsuya Ito Stefanus Harjo* Nobuhiro Tsuji; IF=8.3; JCR分区Q1; 中科院分区1区

[10] Xianliang Li, Guojian Li*, Shiying Liu, Mingdi Lan, Shang Sun, Qiang Wang.  Investigating the high-temperature and self-lubricating properties of TiAlSiCN hard coating coordinated using double amorphous phases, International Journal of Refractory Metals and Hard Materials, 2024, 121: 106692.

李显亮 李国建* 刘诗莹 兰明迪 孙尚 王强; IF=4.2; JCR分区Q1; 中科院分区2区

[11] Xianliang Li, Guojian Li*, Wenzhang Lü, Shiying Liu, Jiwu Deng, Qiang Wang. High-temperature resistance and selflubricating TiAlTaCN nanocomposite hard coating by synergistic interaction of TiAlN(C) and TaN(C) phases, Corrosion Science, 2024, 227: 111687.

李显亮 李国建* 吕汶璋 刘诗莹 邓继武 王强; IF=7.4; JCR分区Q1; 中科院分区1区

[12] Wenzhang Lü, Guojian Li*, Xianliang Li , Shiying Liu, Jiwu Deng , Qiang Wang, Effect of pulsed electric field on the nanocrystalline growth of magnetron-sputtered TiAlN hard coatings, Ceramics International, 2024, 50: 920-926.

吕汶璋 李国建* 李显亮 刘诗莹 邓继武 王强; IF=5.1; JCR分区Q1; 中科院分区2区

[13] Wenzhang Lü, Guojian Li*, Shiying Liu, Mingdi Lan, Chao Li, Qiang Wang, Pulsed electric field treatment reduces the internal stress and increases the adhesion of TiAlN coating, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 702: 135095.

吕汶璋 李国建* 刘诗莹 兰明迪 李超 王强; IF=4.9; JCR分区Q2; 中科院分区2区

[14] Mingdi Lan, Shang Sun, Shiying Liu*, Guojian Li*, Bolun Zhu, and Qiang Wang, Effect of Magnetic Moment on Carrier Effective Mass and Transport in Magnetic Nd2Fe14B Composite Bi2Te3 Films, The Journal of Physical Chemistry Letters, 2024, 15: 6758-6762.

兰明迪 孙尚 刘诗莹* 李国建* 朱博伦 王强; IF=4.8; JCR分区Q1; 中科院分区2区

[15] Mingdi Lan, Shang Sun, Shiying Liu*, Guojian Li*, Xiao Sun, and Qiang Wang, Thermoelectric properties of Bi2Te3 fflms with low-angle grain boundaries formed through high pulse current density, Chemical Engineering Journal, 2024, 484: 149519.

兰明迪 孙尚 刘诗莹* 李国建* 孙肖 王强; IF=13.2; JCR分区Q1; 中科院分区1区

[16] Shang Sun, Mingdi Lan, Shiying Liu*, Guojian Li*, Kai Wang, and Qiang Wang, Optimizing thermoelectric transport through composite deposition of C-axis oriented interpolated multilayer bismuth films, Surfaces and Interfaces, 2024, 54: 105251.

孙尚 兰明迪 刘诗莹* 李国建* 王凯 王强; IF=5.7; JCR分区Q1; 中科院分区2区

[17] Abdelhamid Ait M’hid, Guojian Li, Mourad Boughrara∗, Mohamed Kerouad, Qiang Wang, Tuning structure, stability and magnetism in vanadium doped zinc sulfide for spintronic applications: Insights from first-principles and Monte Carlo approaches, Computational Materials Science, 2024, 240: 112995.

Abdelhamid Ait M’hid 李国建 Mourad Boughrara∗ Mohamed Kerouad 王强; IF=3.1; JCR分区Q2; 中科院分区3区

[18] Peng Miao, Tie Liu*, Zhengyang Lu, Haoyang Sun, Jun Wang, Shuang Yuan, Qiang Wang. Wetting of α-Al₂O₃ by molten Al-2wt.% Cu under high magnetic fields. Surfaces and Interfaces, 2024, 48: 104325.

苗鹏 刘铁* 卢政阳 孙昊阳 王军 袁双 王强; IF=5.7; JCR分区Q1; 中科院分区2区

[19] Peng Miao, Tie Liu*, Yanlong Ren, Haoyang Sun, Jun Wang, Xiaoming Liu*. Pronounced modification of the wetting and spreading behavior of molten Ag-Cu alloy on TC4 substrate in response to high magnetic fields. Surface and Coatings Technology, 2024, 487: 130950.

苗鹏 刘铁* 任艳龙 孙昊阳 王军 刘晓明* 王强; IF=5.3; JCR分区Q1; 中科院分区2区

[20] Jinmei Sun, Tie Liu*, Xiaoyu Guo, Shuang Yuan, Jun Wang, Noriyuki Hirota, Qiang Wang. Effect of a high-gradient magnetic field on grain refinement of a hypoeutectic Mn-Sb alloy during directional solidification. Journal of Materials Science & Technology, 2024, 175: 47-54.

孙金妹 刘铁* 郭晓玉 袁双 王军 广田宪之 王强; IF=11.2; JCR分区Q1; 中科院分区1区

[21] Siyu Zhang, Tie Liu*, Ling Miao, Kai Wang, Xiaoming Liu**, Qiang Wang. Formation of polycrystalline-Co particle-chains in Cu–Co alloy during liquid-phase sintering in a high magnetic field. Journal of Materials Science, 2024, 59(28): 13323-13329.

张思雨 刘铁* 苗玲 王凯 刘晓明* 王强; IF=3.5; JCR分区Q2;中科院分区3区

[22] Guo Xiaoyu, Liu Tie*, Yang Hezhi, Dong Meng, Zhang Baoze, Qiang Wang. <111>-orientation growth of Tb-Dy-Fe alloys induced by high magnetic fields during directional solidification. Materials Characterization, 2024, 213: 114047.

郭晓玉 刘铁* 杨赫枝 董蒙 张保泽 马永会 王强; IF=4.8; JCR分区Q1;中科院分区2区

[23] Guo Xiaoyu, Liu Tie*, Zhang Baoze, Yang Hezhi, Liu Yanxin, Qiang Wang. Magnetostrictive response induced by crystallographic orientation and magnetic domain structure in directionally solidified Tb-Dy-Fe alloys under high magnetic fields. Materials Letters, 2024, 370: 136871.

郭晓玉 刘铁* 张保泽 杨赫枝 刘延新 王强; IF=2.7; JCR分区Q2;中科院分区4区

[24] Baoze Zhang, Xinying Zhu, Ying Luo, Xiaoyu Guo, Qinlu Sun, Ziyuan Tang Yuxuan Wu, Tie Liu*, and Qiang Wang. Optimized magnetic properties of a Terfenol-D alloy in an extended temperature range using a high magnetic field. Physica Scripta, 2024, 99: 1059a1.

张保泽 朱欣颖 罗颖 郭晓玉 孙沁露 唐子渊 吴宇轩 刘铁* 王强; IF=2.6; JCR分区Q2;中科院分区3区

[25] Peng Miao, Tie Liu*, Pengcheng Tang, Jun Wang, Sun Yuan, Wangzhong Mu, Qiang Wang. Dynamic wetting behavior of molten Al on a-Al2O3 substrate during heating in high magnetic field. Colloids and Surfaces A:Physicochemical and Engineering Aspects, 2024, 682: 132938.

苗鹏 刘铁* 唐鹏程 王军 袁双 牟望重 王强; IF=4.9; JCR分区Q2; 中科院分区2区

[26] Shiyu Zhang, Chenchong Wang, Meijia Sun, Chen Tian, Wangzhong Mu, Jian Huang, Qiang Fu, Minchuan Guo, Xiaoming Liu^*, Qiang Wang. Inducing Columnar-to-Equiaxed Transition by Gradient Impediment-Flow Optimization Mechanism: The Inheritance Chain of Solidification. International Journal of Heat and Mass Transfer, 2025, 236: 126280.

张时雨 王晨充 孙美佳 田晨 牟望重 黄健 富强 郭民传 刘晓明^* 王强. IF=5.0; JCR分区Q1; 中科院分区2区

[27] Zaiqing Yang, Xiaoming Liu*, Yuchen Hu, Caiyi Liu, Zhijia Zhang, Zhiyu Ren, Shuang Yuan*, and Qiang Wang. Broadband radar absorbing metamaterial based on Al and SiO2 conductive composite film. Optics Express, 2024, 32(4): 5206-5213.

杨在清 刘晓明* 华宇晨 刘才溢 张芷嘉 任志宇 袁双* 王强. IF=3.2; JCR分区Q2; 中科院分区2区

[28] Chunlei Wu, Yanwen Sun, Zhexiao Liu, Qiang Wang*, Xiaoming Liu, Dewei Li, Xiaowei Zhu, Chunyang Shi. Evolution and Influence of Flow Field Affected by Coupled Swirling Flows in Round Billet Mold. ISIJ International, 2025, 65(01): 1-10.

吴春雷 孙延文 刘哲霄 王强* 刘晓明 李德伟 朱晓伟 史纯阳. IF=1.6; JCR分区Q2; 中科院分区3区

[29] Lianyu Wang, Xiaoming Liu*, Qiang Wang*, Chenglin Zhao, Kun Liu, Lianghua Feng. Effect of Orifice Position on Bubble Aggregation and Coalescence in Dynamic Rotating Flow. JOM, 2024, 76(12): 6934-6941.

王连钰 刘晓明* 王强 赵成林 刘坤 冯亮花. IF=2.1; JCR 分区Q2;中科院分区3区

[30] Mingyuan Ma, Yingchun Diao, Kai Wang*, Xiangkui Zhou, Guojian Li, Qiang Wang. Nanocrystalline Microstructure Enhanced Mechanical Properties and Cutting Performance in WC-10Co-Ti(C, N) Gradient Cemented Carbides. Materials Characterization, 2024, 209: 113708.

马明远 刁迎春 王凯* 周向葵 李国建 王强; IF=4.8; JCR分区Q1; 中科院分区2区

[31] Yingchun Diao, Mingyuan Ma, Guojian Li, Qijun Huang, Kai Wang*, Jiaao Pei, Qiang Wang. L12 strengthening of WC-CoNiFe cemented carbides by spark plasma sintering. Ceramics International, 2024, 50(24, Part C): 56135-56143.

刁迎春 马明远 李国建 黄启君 王凯* 裴佳澳 王强; IF=5.1; JCR分区Q1; 中科院分区2区

[32] Kai Wang, Mingyuan Ma, Yingchun Diao, Qijun Huang, Xiangkui Zhou, Guojian Li, Qiang Wang*. Role of V(C, N) on gradient structure formation and mechanical properties of nanocrystalline cemented carbides. International Journal of Refractory Metals and Hard Materials, 2024, 118:106470.

王凯 马明远 刁迎春 黄启君 周向葵 李国建 王强*; IF=4.2; JCR分区Q1; 中科院分区2区

[33] Chaojie Yan, Chenhua Yuan, Chun Wu, Hui Zhang, Kai Wang*, Qiang Wang*. Alignment of Two-Phase Microstructures in Fe-0.155 Mass%C Alloy by Applying High Magnetic Field Gradients During Austenitic Decomposition. JOM, 2024, 76(2): 698–704.

闫超杰 袁晨华 吴纯 张辉 王凯* 王强*; IF=2.1; JCR分区Q2; 中科院分区4区

[34] Songhan Hu, Mingyuan Ma, Rui Liang, Xinxin Xu, Kai Wang*, Qiang Wang. Preparation and growth orientation modulation of Mn0.6Zn0.4Fe2O4 nanoparticles as MRI contrast agents. Materials Today Communications, 2024, 39:108904.

胡嵩晗 马明远 梁瑞 徐欣欣 王凯* 王强; IF=3.7; JCR分区Q2; 中科院分区3区

[35] Songhan Hu, Kai Wang*, Xinxin Xu, Qiang Wang. Co-doping regulation on Ni-based electrocatalysts to adjust the selectivity of oxygen reduction reaction for Zn–air batteries and H2O2 production. Dalton Transactions, 2024, 53(44): 17819–28.

胡嵩晗 王凯* 徐欣欣 王强; IF=3.5; JCR分区Q2; 中科院分区3区

[36] Songhan Hu, Mingyuan Ma, Wei Sun, Guowei Pan, Kai Wang*, Qiang Wang. Fabrication of ZMF@PS composite microspheres as T2 contrast agents with enhanced contrast performance and magnetic properties. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 703:135390.

胡嵩晗 马明远 孙炜 潘国伟 王凯* 王强; IF=4.9; JCR分区Q2; 中科院分区2区

[37] Chun Wu, Qunshou Wang, Zhiyong Li, Ling Chang, Kai Wang*, Wenli Pei, Qiang Wang. The disorder-order transition of FeCuPt nanoparticles with various Cu content. Intermetallics, 2025, 176: 108561.

吴纯 王群首 李志永 常玲 王凯* 裴文利 王强; IF=4.3; JCR分区Q1; 中科院分区2区

[38] Zhong Wang, Shuang Yuan*, Hao Tian, Tuo Zang, Jinyang Li, Jiaqi Liu, Guojian Li, Jun Wang, Tie Liu, Qiang Wang*. Magnetic field assisted synthesis of dense braided rope NiCoP as a highly efficient hydrogen evolution electrocatalyst. Applied Catalysis B: Environmental,2024, 343: 123579.

王钟 袁双* 田昊 臧拓 厉金杨 刘家岐 李国建 王军 刘铁 王强*; IF=22; JCR分区Q1; 中科院分区1区

[39] Zhong Wang, Jinzhou Li, Shuang Yuan*, Jinshuo Yang, Zhiqiang Jin, Xinjia Tan, Jie Dang*, Wangzhong Mu, Guojian Li, Qiang Wang*.Sabatier principle based design of high performance FeCoNiMnMoP high entropy electrocatalysis for alkaline water splitting. Chemical Engineering Journal, 2024, 497: 154650.

王钟 李锦洲 袁双* 杨金硕 金智强 谭新佳 党杰* 牟望重 李国建 王强*; IF=15.1; JCR分区Q1; 中科院分区1区

[40] Zhong Wang, Xinjia Tan, Ziyu Ye, Shiyu Chen, Guojian Li, Qiang Wang, Shuang Yuan. High entropy materials: potential catalysts for electrochemical water splitting. Green Chemistry, 2024,26(18): 9569-9598.

王钟 谭新佳 叶紫煜 陈诗语 李国建 王强* 袁双*; IF=9.8; JCR分区Q1; 中科院分区1区

[41] Fusen Lv, Jiaqi Liu, Yun Ye, Zhong Wu, Qiang Wang*, Yi Sun, Shuang Yuan*. Material design strategies for high-nickel ternary cathode materials. Journal of Energy Storage, 2024, 97: 112828.

吕福森 刘家岐 叶芸 吴忠 王强* 孙艺 袁双*; IF=8.9; JCR分区Q1; 中科院分区2区

[42] Fusen Lv, Rui Chen, Xiao Yang, Jiaqi Liu, Tie Liu, Kai Wang,  Xiaoming Liu, Hao Li, Leiming Fang, Qiang Wang *, Shuang Yuan*. Magnetic Field Control in Growth Process of Co3O4 and Its Performance Enhancement Mechanism as Anode Material for Lithium Ion Capacitors. Journal of Materials Chemistry A, 2024.

吕福森 陈蕊 杨晓 刘家岐 刘铁 王凯 刘晓明 李昊 房雷鸣 王强* 袁双*; IF=10.8; JCR分区Q1; 中科院分区1区

[43] Xiao Duan, Jiaqi Liu, Fusen Lv, Tie Liu, Weibin Cui, Jun Wang, Qiang Wang, Shuang Yuan*. 3D porous structure Fe3O4@SnO2/MXene composites with enhanced electrochemical performance for lithium ion battery anode. Journal of Energy Storage, 2024, 86: 111308.

段晓 刘家岐 吕福森 刘铁 王军 王强 袁双*; IF=9.8; JCR分区Q1; 中科院分区2区

[44] Jiaqi Liu, Weibin Chen, Shuang Yuan, Tie Liu, Qiang Wang. High-coordination Fe-N4SP single-atom catalysts via the multi-shell synergistic effect for the enhanced oxygen reduction reaction of rechargeable Zn-air battery cathodes. Energy & Environmental Science, 2024, 17(1): 249-259.

刘家岐 陈为斌 袁双* 刘铁 王强*; IF=32.4; JCR分区Q1; 中科院分区1区

[45] Jiaqi Liu, Rongyuan Zhang, Xiaoyang Wang, Jun Wang, Tie Liu, Weibin Cui, Qiang Wang, Shuang Yuan*. High magnetic field-induced structural transformation of NiFe₂O₄/Fe₂O₃ heterostructures for enhanced lithium storage performance. Transactions of Nonferrous Metals Society of China, 2024.

刘家岐 张荣远 王晓阳 王军 刘铁 崔伟斌 王强 袁双*; IF=4.7; JCR分区Q1; 中科院分区1区

[46] Yun Ye, Shuang Yuan*, Shuhao Zhang, Tie Liu, Jun Wang, and Qiang Wang*. Functional Composite Dual-Phase In-Situ Self-reconstruction Design for High-Energy-Density Li-Rich Cathodes. Small; 2023, 2307669.

叶芸 袁双* 张书豪 刘铁 王军 王强*; IF=13; JCR分区Q1; 中科院分区2区

[47] Zhicheng Shan, Yi Yuan*, Lixue Yang, Bin Cao, Guojian Li, Qiang Wang. Possibilities and difficulty levels for vertical eddy current separation between different non-ferrous metals, Separation and Purification Technology, 2025, 356: 129933.

单志成 苑轶* 杨立学 曹斌 李国建 王强; IF=8.2; JCR分区Q1; 中科院分区1区

[48] Zhicheng Shan, Yi Yuan*, Bin Cao, Shilong Miao, Guojian Li, Qiang Wang. The effect of interaction between particles on eddy current separation, Separationand and Purification Technology, 2024, 346: 127382.

单志成 苑轶* 曹斌 缪诗龙 李国建 王强; IF=8.2; JCR分区Q1; 中科院分区1区

[49] Zhicheng Shan, Yi Yuan*, Zongqiang Zhou, Lei Feng, Bin Cao, Guojian Li, Qiang Wang. The effects of the separator structures and magnetic roller arrangements on eddy current separation, Minerals Engineering, 2024, 214: 108793.

单志成 苑轶* 周宗强 冯雷 曹斌 李国建 王强; IF=4.9; JCR分区Q1; 中科院分区2区

[50] Bin, Cao, Yi, Yuan, Abdelkader Amor, Kamali Ali Reza, Montalvão Diogo, Qiang, Wang*, Zhicheng, Shan, Lixue, Yang. Generation mechanism and empirical model of eddy current force and torque in drum-type eddy current separation, Waste Management, 2024, 182: 299-309.

曹斌 苑轶 阿莫尔 阿里 迪奥戈 王强* 单志成 杨立学; IF=8.1; JCR分区Q1; 中科院分区2区

[51] Meiling Li, Mingwei Hu, Yaning Wang, Yonghui Ma, Yi Yuan*, Tahashi Masahiro, Qiang Wang. Thermoelectric properties of Bi2Te3-based prepared by directional solidification under a high magnetic field, Materialia, 2024, 102294.

李美玲 胡明威 王雅宁 马永辉 苑轶* 桥正弘 王强; IF=3; JCR分区Q2

[52] Yi Yuan, Yaning Wang, Yonghui Ma, Ruiming Yang, Meiling Li, Tie Liu, Qiang Wang*. High-Performance SnTe Thermoelectric Materials Enabled by the Synergy of Band Convergence and Phonon Scattering, ACS AppliedMaterials &Interaces, 2024, 16(40): 53785-53792.

苑轶 王雅宁 马永辉 杨瑞明 李美玲 刘铁 王强*; IF=8.9; JCR分区Q1; 中科院分区2区

[53] Jianchun Sha, Qiang Wang, Xue Li, Zhoulin Liu, Jiaxin Bao, Lianhui Li, Jie Tian, Weilong Chen, Wenhong Liu and Zhiqiang Zhang*. Achieving high power density and stability in aqueous Mg-air batteries using taurine electrolyte additives. Inorganic Chemistry Frontiers, 2024, 11(23): 8445-8463.

Jianchun Sha 王强 Xue Li Zhoulin Liu Jiaxin Bao Lianhui Li Jie Tian Weilong Chen Wenhong Liu Zhiqiang Zhang*; IF=6.1; JCR分区Q1; 中科院分区1区

[54] Hongyun Guo, Xiaoxiao Fu, Lishan Peng, Chaobo Wang, Yujuan Zhuang, He Chong, Zhaohui Chen, Weijiang Gong, Mi Yan*, Qiang Wang* and Weibin Cui*. Rare-Earth (R) In-Plane Ordering in novel (Mo, R, Nb)4AlC3 quinary o-MAX nanolaminates and their 2D derivatives. Advanced Materials, 2024, 36(36).

Hongyun Guo Xiaoxiao Fu Lishan Peng Chaobo Wang Yujuan Zhuang He Chong  Zhaohui Chen Weijiang Gong Mi Yan*, 王强* 崔伟斌*; IF=27.4; JCR分区Q1; 中科院分区1区

[55] Ming He, Qingwei Wang, Lijia Zhao, Wangzhong Mu, Xingan Liu, Qiang Wang*.  Optimizing cooling approach of spiral coil for an electromagnetic steel teeming system of ladle in continuous casting production. Journal of Iron and Steel Research International, 2024.

何明 Qingwei Wang 赵立佳 牟望重 Xingan Liu 王强*;  IF=3.1; JCR分区Q1; 中科院分区2区

[56] Ping Sun, Xinxin Xu*, Jin Chen and Qiang Wang*. Oxygen vacancies rich polyoxometalate for haloperoxidase mimic involved antibiofouling on self-provided H2O2 from photocatalysis. Separation and Purification Technology, 2024, 347.

Ping Sun Xinxin Xu* 陈进 王强*; IF=8.1; JCR分区Q1; 中科院分区2区

[57] Yumeng Bian, Runze Wang, Xinxin Xu*, Jin Chen and Qiang Wang*. A wheel-like polyoxometalate for haloperoxidase-inspired antibiofouling with H2O2in situ provided by electrocatalysis. Inorganic Chemistry Frontiers, 2024, 11(10): 3047-3055.

Yumeng Bian Runze Wang Xinxin Xu* 陈进 王强*; IF=6.1; JCR分区Q1; 中科院分区1区

[58] Leqin Sun, Honglei Zhang*, Miaomiao Feng, Miao Miao, Xiaoming Liu, Guangjun Xu and Qiang Wang. Prediction of Macrosegregation in Fe–C–Cr alloy casting through coupling with thermodynamic phase transformation path. Journal of Iron and Steel Research International, 2024.

Leqin Sun  Honglei Zhang* Miaomiao Feng  Miao Miao 刘晓明 Guangjun Xu 王强; IF=3.1; JCR分区Q1; 中科院分区2区

[59] Pu Liu, Qiang Li, Xiaodan Chi, Houxin Zhou, Wenyu Deng, Yanjun Lu, Lijun Qi, Qiang Wang and Weibin Cui*. Effects on the magnetic properties and microstructure of Nd-Fe-B diffusion-processed using Tb oxyfluoride. Materials Letters, 2024, 364: 136375.

Pu Liu Qiang Li Xiaodan Chi Houxin Zhou Wenyu Deng Yanjun Lu Lijun Qi 王强 崔伟斌*; IF=2.7; JCR分区Q2; 中科院分区4区

[60] 王洋, 陈蕾, 牟望重, 张政睿, 王剑, 陈超*. 高镍 316L 不锈钢连铸方坯凝固模式及残留铁素体特征. 钢铁, 2024, 59(5): 80-91.

[61] 王涛, 陈超*, 牟望重, 薛利强, 曹建其, 林万明. 稀土处理无取向硅钢 23W1700 冶炼全流程夹杂物分析. 钢铁, 2024,59(5): 92-103, 115.

[62] 李阳, 何明, 牟望重*, 赵立佳*, 田晨, 王强. 电磁出钢系统中电源参数对封堵层加热效率的影响. 钢铁研究学报, 36(2024), No.12, 1530-1544.

[63] 罗葆钦, 赵立佳*, 张峰, 马文斌, 乔文玮, 王强. 高强高塑马氏体汽车钢的快速回火调控. 钢铁研究学报, 2024, 36(09): 1203-1211.

2023年论文

[1] Mingyuan Ma, Yingchun Diao, Kai Wang*, Xiangkui Zhou, Guojian Li, Qiang Wang. Sintering behavior of WC-10Co-V(C, N) nanocrystalline gradient cemented carbide, Ceramics International, 2023, 43(22), 35112-35122.

 [2] Donggang Li*, Tianlong Shan, Chongguo Liu, Can Zhao, Andrew Doherty, Ali Reza Kamali, Qiang Wang. Homogenizing of Pt on NiCu films for enhanced HER activity by two-step magneto-electrodeposition. New Journal of Chemistry, 2023, 47(28): 13098-13105.

 [3] Ling Chang, Chun Wu, Dong Zhao, Qunshou Wang, Kai Wang, Qiang Wang*, Wenli Pei*. Regulating the morphology and structures of wet-chemical synthesized L1₀-FePtMn nanoparticles by applying magnetic fields. Nanoscale, 2023, 15: 10042-10049.

 [4] Shuhao Zhang, Yun Ye, Zhaoxiong Chen, Qinghao Lai, Tie Liu, Qiang Wang, Shuang Yuan. Improved electrochemical performance of Li-rich cathode materials via spinel Li₂MoO₄ coating. Materials, 2023, 16:5655.

 [5] Chen Liu, Shuang Yuan*, Yang Yang, Xiaoxi Zhao, Xiao Duan, Bin Cao, Qiang Wang*. Prussian blue analogues-derived nitrogen-doped carbon-coated FeO/CoO hollow nanocages as a high-performance anode material for Li storage. Rare Metals, 2023, 42(12): 4070-4080.

 [6] Zhong Wang, Shuang Yuan*, Tuo Zang, Tengxiao Li, Yudi Zhou, Jiaqi Liu, Tie Liu, Kai Wang, Qiang Wang*. Preparation of a Pt-Ni₂P/NF catalyst for highly efficient hydrogen evolution using a magnetic field to promote Ni-Pt galvanic replacement. Journal of Materials Science & Technology,2023, 142: 144–151.

[7] Shuang Yuan, Zhong Wang, Yifan Hao, Cong Qi, Jiaqi Liu, Qiang Wang. Design and preparation of 3D porous Ni–P/Ni integrated electrodes by electrodeposition for hydrogen evolution by electrolysis of water. Journal of Solid State Chemistry, 2023, 317: 12370.

[8] Yi Yuan, Zhicheng Shan, Hong Yan, Bin Cao, Lixue Yang, Guojian Li, Qiang Wang. Optimal design of a new Halbach array magnetic roller with axial eddy current force. Minerals Engineering, 2023, 204: 108406.

[9] Guiquan Yao, Guoqing Zeng, Qiang Wang, Weibin Cui*. Significant reduction of thermomagnetic hysteresis in NdMn2-xAlxSi2 (0 ≤ x ≤ 0.4) alloys by hetero-structural alloying. Journal of Solid State Chemistry, 2023, 317: 12.

[10] Guiquan Yao, Botao Liu, Qiang Wang, Weibin Cui*, Sen Yang*. Magnetic transition and magnetocaloric effect of Gd(Ga, X) (X = Al, Si) Alloys. Journal of Electronic Materials, 2023, 52:3742-3748.

[11] Botao Liu, Guoqing Zeng, Guiquan Yao, Sen Yang*, Qiang Wang, Weibin Cui*. Enhanced magnetocaloric effect in the Tb₂In_1−xAl_x (0 ≤ x ≤ 0.6) alloy by hetero-structural alloying. Journal of Magnetism and Magnetic Materials, 2023, 568: 170409.

[12] Guiquan Yao, Guoqing Zeng, Qiang Wang, Weibin Cui*. Evolution of structure, magnetic phase transition and magnetocaloric effect of GdNiSi_1-xAl_x (0 ≤ x ≤ 0.3) alloys. Journal of Magnetism and Magnetic Materials, 2023, 585: 170918.

[13] Shuli Sun, Zhen Ma, Zhaohui Chen, Pu Liu, Yu Song, Qiang Lu, Xiaoxiao Fu, Qiang Wang, Weibin Cui*. The crystallographic structure and properties of novel quaternary nanolaminated rare-earth-Cr-based i-MAX phases. Acta Materialia, 2023, 242: 118479.

[14] Jinbin Cui, Shang Sun, Mingdi Lan, Shiying Liu, Yongjun Piao, Guojian Li^*, Qiang Wang. Effect of low-dimensional carbon composite on the thermoelectric properties of vacuum evaporated ZnO: Al films. Thin Solid Films, 2023, 766: 139641.

[15] Zhiwei Wang, Mingdi Lan, Shiying Liu, Guojian Li^*, Gaoyuan Zhai, Qiang Wang. Effect of Zn atomic diffusion due to pulsed electric field treatment on the thermoelectric properties of Zn–Sb films. Materials Science in Semiconductor Processing, 2023, 161:107473.
[16] Gaoyuan Zhai, Mingdi Lan, Shiying Liu, Guojian Li^*, Zhiwei Wang, Qiang Wang. Effect of Cu distribution on thermoelectric properties of evaporated Cu2−xSe films with various Ag contents. Journal of Alloys and Compounds, 2023, 944: 169158.

[17] Mingdi Lan, Shang Sun, Shiying Liu, Guojian Li^*, Zhiwei Wang, Qiang Wang. Controlling the shape of hexagonal structure by growth condition improves the thermoelectric properties of p-type Bi-Te films. Journal of the European Ceramic Society, 2023,43(16): 7493-7498.

[18] Hassan Ahmoum*, Guojian Li, Mourad Boughrara, Mohamed Kerouad, Qiang Wang. Shifting the plasmonic resonance to infrared region for AlP by inducing high S concentration: Indirect to direct band gap. Physica B-Condensed Matter, 2023, 654: 414718.

[19] Shuang Yuan*, Qianghao Lai, Xiao Duan, Qiang Wang*. Carbon-based materials as anode materials for lithium-ion batteries and lithium-ion capacitors: A review. Journal of Energy Storage, 2023, 61:106716.

[20] Chaojie Yan, Chenhua Yuan, Kai Wang*, Xichen Yang, Tie Liu, Qiang Wang. Nucleation kinetics of proeutectoid ferrite transformation in Fe‑0.58mass%C alloy under a high magnetic field. Applied Physics A, 2023, 129:315.

[21] 叶芸, 张书豪, 谭新佳, 王 强, 袁 双*. 高能量密度富锂正极材料研究进展. 中南大学学报 (自然科学版), 2023, 54(2):640-658.

[22] Wei Xu, Yifei Zhang, Xia Zhang, Xinxin Xu*, Qiang Wang*. One stone, two birds: A Cu-S cluster as a laccase-mimicking nanozyme and sulfite activator for phenol remediation in marine environments. Journal of Hazardous Materials, 2023, 457:131776.

[23] Wei Xu, Xia Zhang, Xinxin Xu*, Jin Chen, Qiang Wang*. Guest Molecule Insertion-Optimized d‑Band Center Position in MoS₂ with Improved Sulfite Activation Ability Inspired by Sulfite Oxidase. ACS Applied Materials & Interfaces, 2023, 15(10):13042-13051

[24] Yun Ye, Shuang Yuan*, Shuhao Zhang, Tie Liu, Jun Wang, Qiang Wang* Functional Composite Dual-Phase In Situ Self-reconstruction Design for High-Energy-Density Li-Rich Cathodes. Small, 2023:2307669.

[25]  陈震, 兰明迪, 李国建^*, 孙尚, 刘诗莹, 王强. 高软磁低电导率Fe-Fe₃N薄膜的N原子含量调控. 物理学报, 2023, 72(6): 067502.

[26] 李超, 杜菲菲, 吕汶璋, 李显亮, 李国建*, 王强. 氮含量对直流磁控溅射(TiAlTaCrZr)N涂层力学及钛合金切削性能影响研究. 稀有金属材料与工程, 2023, 52(6): 2141-2146.

[27] Xiaoyu Guo, Tie Liu*, Baoze Zhang, Meng Dong, Hezhi Yang, Shuang Yuan, Qiang Wang. Microstructure, residual stress and magnetic properties of Tb0.27Dy0.73Fe1.95 alloy heat treated in high magnetic field. Journal of Magnetism and Magnetic Materials, 2023, 588: 171472.

[28] Chengyu He, Tie Liu*, Peng Miao, Shuang Yuan, Jun Wang, Qiang Wang. Wettability of Ionic Liquids in High Magnetic Fields. The journal of physical chemistry. B,2023,127:44.

[29] 周天儒, 刘铁*, 阎金戈, 孙金妹, 郭晓玉, 苗鹏, 王强. 强磁场下Cu-50%Ag合金定向凝固过程中的组织及固液界面形貌演变. 精密成形工程,2023,15(10):21-30.

[30] Yong Wang, Sen Lin, Zhihua Dong, Joo Hyun Park, Qiang Wang, Hongwei Ni, Wangzhong Mu*. Characterization and formation mechanism of non-metallic inclusions in single bcc-phase high entropy alloy. Materials Characterization, 2023, 205: 113299.

[31] Wei Wang, Hongliu Wu, Wangzhong Mu*, Wenda Zhang, Zhou Li, Huahai Mao, Peikang Bai***, Henrik Larsson**. Optimal corrosion resistance of cobalt-based dual-phase entropic alloys via compositional modulation of aluminum. Journal of Materials Research and Technology, 2023, 24: 9225-9239.

[32] Yong Wang, Yulong Li, Wei Wang, Hui Kong, Qiang Wang, Joo Hyun Park, Wangzhong Mu*. Effect of Manufacturing Conditions and Al Addition on Inclusion Characteristics in Co-Based Dual-Phase High Entropy Alloy. Metallurgical and Materials Transactions A, 2023, 54: 2715-2729.

[33] Yong Wang, Sohei Sukenaga, Hiroyuki Shibata, Qiang Wang, Wangzhong Mu*. Combination of In Situ Confocal Microscopy and Calorimetry to Investigate Solidification of Super- and Hyper-Duplex Stainless Steels. Steel Research International, 2023, 94(11): 2200960 & 2370111 (Cover Picture).

[34] Gonghao Lian, Qihao Sun, Xiaoming Liu*, Weimiao Kong, Ming Lv, Jianjun Qi, Yong Liu, Benming Yuan, Qiang Wang*. Automatic recognition and intelligent analysis of central shrinkage defects of continuous casting billets based on deep learning[J]. Journal of Iron and Steel Research International, 2023, 30: 937–948.

[35] Hao Gao, Lijia Zhao*, Li Li, Zhiqing Lin, Shaolong Sheng, Qiang Wang. Scale Effect of Surface Asperities on Stick–Slip Behavior of Zinc-Coated Steel. Langmuir, 2023, 39(15): 5561-5568.

[36] Shuai Ma, Ming He, Yi Yuan, Lijia Zhao*, Qiang Wang, Xiaowei Zhu. Suppressing Vortex by Static Electromagnetic Field at the Last Stage of Ladle Steel Teeming Process. International Journal of Metalcasting, 2023, 17(3): 2226-2238.

[37] Ming He, Shuai Ma, Lijia Zhao, Xiaowei Zhu, Zhouhua Jiang, Qiang Wang*. Optimizing Design of Vortex Suppression Utilizing Static Electromagnetic Field during Steel Teeming from Ladle. steel research international, 2023, 94(1): 2200663.

[38] Hao Gao, Lijia Zhao*, Songyuan Wu, Li Li, Shaolong Sheng, Tie Liu, Qiang Wang. The effect of temperature-dependent interfacial interaction on the stick–slip behavior of polyamide-66/zinc-coated steel. Materials & Design, 2023, 235: 112437.

[39] Sheng Qu, Chen Tian^*, Yadong Sun, Lei Yuan, Jingkun Yu^**. Electrically charged behavior of the solution during the stirring process. International Journal of Electrochemical Science, 2023, 18(10): 100305.

[40] Sheng Qu, Chen Tian^*, Lei Jia, Guanchen Zhang，Zhenli Liu, Zijun Peng, Jingkun Yu, Lei Yuan^**. High-temperature corrosion resistance of the different rare-earth tantalate doped Cr₂O₃ thermal barrier materials. Ceramics International, 2023, 49(9): 14238-14245.

[41] Chen Tian, Lei Yuan^*, Zijun Peng, Xiaoming Liu, Qiang Wang^**. Interface wetting and reaction behavior between mold flux and submerged entry nozzle under an external electric field. Steel Research International, 2023, 2023, 94(12):2300222.

[42] Chen Tian, Jianjun Zhi, Feifang Gan, Zhengjie Fan, Hua Gao, Lei Yuan^*, Guoqi Liu, Jingkun Yu, Hongxia Li. Analysis of Corrosion Behavior of ZrO₂-C Slag-line Materials in Continuous Casting. China’s Refractories, 2023, 32(3): 10-13.

[43] Yong Wang, Qiang Wang, Wangzhong Mu*. In Situ Observation of Solidification and Crystallization of Low-Alloy Steels: A Review (Feature Article). Metals, 2023, 13(3): 517.

[44] 刘晓明, 华宇晨, 傅远翔, 孙杨阳, 余欣燃, 杨在清, 王强^*. 雷达吸波材料研究进展[J]. 中国材料进展, 2023, 42(09): 685-698+731.

[45] 朱晓伟, 赵立佳, 何明, 王凯, 金百刚, 王强*. 板坯连铸用电磁旋流水口装置磁场优化设计. 钢铁, 58(9): 127-136.

[46] 范斌, 刘利, 张时雨, 刘宁宁, 刘晓明^*, 王强. 齿轮钢20CrMnTiH淬透性/宏观偏析控制[J]. 连铸, 2023, 1: 47-54.

[47] 范斌, 刘利, 张思远, 李浩秋, 刘晓明^*, 王强. 齿轮钢20CrMnTiH连铸大圆坯宏观偏析控制[J]. 连铸, 2023, 4: 23-28.

2022年论文

[1]  Mingdi Lan, Shang Sun, Shiying Liu, Guojian Li*, Hailong Guo, Qiang Wang. Improved thermoelectric properties of C-doped Bi2Te3 films following short-range atomic diffusion induced by pulsed electric field treatment. Ceramics International, 2022, 48: 26865-26873.

[2]  Xianliang Li, Guojian Li*, Wenzhang Lü, Shiying Liu, Chao Li, Qiang Wang. Controllable high adhesion and low friction coefficient in TiAlCN coatings by tuning the C/N ratio. Applied Surface Science, 2022, 597: 153542.

[3]  Hassan Ahmoum, Guojian Li*, Mourad Boughrara, Ralph Gebauer, Mohd SukorSu’ait, Karim Tanji, Mohamed Kerouad, Qiang Wang. Oxygen vacancy suppress room temperature ferromagnetism of p-type Cu doped ZnO: Synthesis and density functional theory. Micro and Nanostructures, 2022, 167: 207291.

[4]  Ling Chang, Chun Wu, Qunshou Wang, Ting Li, Dong Zhao, Kai Wang, Qiang Wang*, Wenli Pei*. Operating interfaces to synthesize L10-FePt@Bi-rich nanoparticles by modifying the heating process. Nanoscale, 2022, 14(32): 11738-11744.

[5]  Chun Wu*, Yuping Ju, Ling Chang, Shizhi Dong, Runqing Liu, Kai Wang, Wenli Pei*, Qiang Wang. Magnetic flux density-determined oriented attachment growth of FePt nanowires. CrystEngComm, 2022, 24: 4320-4326.

[6]  Kai Wang, Chaojie Yan, Chenhua Yuan, Xichen Yang, Lijia Zhao, Qiang Wang*. Progress in research on diffusional phase transformations of Fe–C alloys under high magnetic fields. Journal of Iron and Steel Research International, 2022, 29(5): 707-718.

[7]  Xiao Lyu*, Yanan Zhang, Zhengwei Du, Hao Chen, Sicheng Li, Alexandre I. Rykov, Chen Cheng, Weina Zhang, Ling Chang, Wang Kai, Junhu Wang, Liang Zhang, Qiang Wang, Chengxi Huang*, Erjun Kan*. Magnetic field manipulation of tetrahedral units in spinel oxides for boosting water oxidation. Small, 2022, 18(42): 2204143.

[8]  Dong Zhao, Ling Chang, Xiaoyang Wang, Kexin Liu, Qunshou Wang, Zhimeng Sun, Chuanzhi Liu, Jianjun Wang, Qiang Wang, Wenli Pei*. Effect of Ag evolution process on ordering transition for L10-FePt nanoparticles synthesized by Ag addition. New Journal of Chemistry, 2022, 46(14): 6747-6755.

[9]  Zhong Wang, Shuang Yuan*, Jiaqi Liu, Yin Zhang, Chen Liu, Tie Liu, Qiang Wang. Preparation of Ni2P nanochains with controllable geometry for the hydrogen evolution reaction by application of a high magnetic field. Scripta Materialia, 2022, 219: 114892.

[10]  Jiaqi Liu, Jie Dang, Meng Wang, Xiaoyang Wang, Xiao Duan, Shuang Yuan*, Tie Liu, Qiang Wang*. Metal–organic-framework-derived cobalt nanoparticles encapsulated in nitrogen-doped carbon nanotubes on Ni foam integrated electrode: highly electroactive and durable catalysts for overall water splitting. Journal of Colloid and Interface Science, 2022, 606: 38-46.

[11]  Weibin Cui*, Guiquan Yao, Shengyu Sun, Qiang Wang, Jie Zhu, Sen Yang. Unconventional metamagnetic phase transition in R2In (R=Nd, Pr) with lambda-like specific heat and nonhysteresis. Journal of Materials Science & Technology, 2022, 101: 80-84.

[12]  Guiquan Yao, Guoqing Zeng, Qiang Wang, Weibin Cui*. Structural evolution and magnetic phase transitions of Nd5Ge3-xSix (0≤x≤3) compounds. Journal of Solid State Chemistry, 2022, 315: 123533.

[13]  Zhaohui Chen, He Chong, Shuli Sun, Jiaxin Yang, Guiquan Yao, Qiang Wang, Jie Zhu, Sen Yang, Weibin Cui*. Synthesis and characterizations of solid-solution i-MAX phase (W1/3Mo1/ 3R1/3)2AlC (R=Gd, Tb, Dy, Ho, Er and Y) and derivated i-MXene with improved electrochemical properties. Scripta Materialia, 2022, 213: 114596.

[14]  Guiquan Yao, He Chong, Yansong Chen, Qiang Wang, Jie Zhu, Sen Yang, Weibin Cui*. Magnetic transition and magnetocaloric effect of R5(Si, Sn)3 (R = Pr, Nd) alloys. Solid State Communications, 2022, 342: 114593.

[15]  Donggang Li, Can Zhao, Andrew Doherty, Shuang Yuan, Yanlong Gong, Qiang Wang. Nucleation and growth mechanism of dendrite-free Ni–Cu catalysts by magneto-electrodeposition for the hydrogen evolution reaction. New Journal of Chemistry, 2022, 46(11): 5246-5255.

[16]  Chen Liu, Zhong Wang, Shuang Yuan*, Xiao Duan, Qiang Wang. High magnetic field-assisted synthesis of a pine-like hyperbranched structure alpha-Fe2O3 for enhanced magnetic properties and photocatalytic activity. Nano-Structures & Nano-Objects, 2022, 31: 100896.

[17]  吴纯*, 鞠玉萍, 江亚男, 董世知, 任鑫, 裴文利*, 王凯, 王强. 强磁场对FePt纳米粒子液相生长速率的影响. 中国有色金属学报, 2022, 32(3): 836-844.

[18]  胡明威 王雅宁 杨睿明 苑轶* 刘铁 王强. 磁场下半导体材料的制备及其性能提升. 铸造技术, 2022, 43(9): 770-779.

[19]  张思雨, 王凯*, 闫超杰, 苗鹏, 刘铁, 王强. 强磁场下第二相颗粒 Ostwald 熟化行为. 铸造技术, 2022, 43(9): 780-791.

[20]  Jinge Yan, Tie Liu*, Mengmeng Wang, Jinmei Sun, Shulin Dong, Lijia Zhao, Qiang Wang. Constitutional supercooling and corresponding microstructure transition triggered by high magnetic field gradient during directional solidification of Al-Fe eutectic alloy. Materials Characterization, 2022, 188: 111920.

[21]  Meng Dong, Tie Liu*, Xiaoyu Guo, Shulin Dong, Lei Li, Jun Wang, Jinshan Li, Lijia Zhao, Qiang Wang. Crystal orientation induced by high magnetic fields during peritectic reaction of alloys. Materials Characterization, 2022, 183: 111608.

[22]  Zhanliang Li, Yuxing He, Tie Liu*, Baijun Yang, Pengfei Gao, Jun Wang, Qiang Wang. Structural modifications induced by ultrasonic vibration during plasma spray deposition Ni coating on Al substrate. Surface & Coatings Technology, 2022, 441: 128600.

[23]  Yubao Xiao*, Qingtao Guo, Tie Liu, Qiang Wang, Mingliang Chai, Kailun Zhang, Yuting Li and Dong Pan. Numerical simulation of the electromagnetic dross removal technology applied in zinc pot of hot-dip galvanizing line. Metals, 2022, 12(10): 1714.

[24]  任艳龙, 刘铁*, 苗鹏, 郭晓玉, 刘文朝, 王强. 磁场下金属熔体物性测量的研究进展. 铸造技术, 2022, 43(8): 678-689.

[25]  苗鹏, 刘铁*, 何成雨, 朱成美, 袁双, 王强. 金属熔体/陶瓷间润湿性的测量及调控研究进展. 铸造技术, 2022, 43(3): 153-166.

[26]  周天儒, 刘铁*, 阎金戈, 孙金妹, 袁双, 王强. 强磁场下金属凝固过程中的溶质迁移行为及组织演变. 铸造技术, 2022, 43(8): 573-584.

[27]  Chang Liu, Guangqiang Li, Lifeng Zhang, Qiang Wang, Qiang Wang*. A three-dimensional comprehensive numerical model of iron transport during electro-refining process for scrap-metal recycling. Materials, 2022, 15(8): 2789.

[28]  Qiang Wang*, Chang Liu, Liping Pan, Zhu He, Guangqiang Li, Qiang Wang. Numerical understanding on refractory flow-induced erosion and reaction-induced corrosion patterns in ladle refining process. Metallurgical and Materials Transactions B, 2022, 53(3): 1617-1630.

[29]  Hao Gao, Lijia Zhao*, Li Li, Songyuan Wu, Zhiqing Lin, Qiang Wang. Effect of wear-induced surface deformation on stick−slip friction of galvanized automotive steels. Langmuir. 2022, 38(37): 11459-11467.

[30]  Bin Cao, Yi Yuan*, Zhicheng Shan, Qiang Wang, Abdelkader Amor, Kamali Ali Reza, Montalvão Diogo. Effects of particle size on the separation efficiency in a rotary-drum eddy current separator. Powder Technology, 2022, 410: 117870.

[31]  Yi Yuan, Bin Cao, Xuemei Zhang, Lei Feng, Tiansheng Wang, Qiang Wang*. Effects of material temperature on the separation efficiency in a rotary-drum type eddy current separator. Powder Technology, 2022, 404: 117449.

[32]  Lianyu Wang, Zeyi Liu, Xiaoming Liu*, Hongyan Shi, Masamichi Sano, Qiang Wang*. Non-contact bubble refinement in metallurgical melt by the forward-reverse rotating electromagnetic field. Metallurgical and Materials Transactions B, 2022, 53: 3364-3369.

[33]  Lianyu Wang, Zeyi Liu, Ming He, Xiaoming Liu, Masamichi Sano, Lijia Zhao, Qiang Wang*. Flow fields control for bubble refinement induced by electromagnetic fields. Journal of Iron and Steel Research International, 2022, 29: 575-587.

[34]  Ming He, Lianyu Wang, Yonglin Li, Lijia Zhao*, Zhouhua Jiang, Qiang Wang. A model to predict coil temperature evolution during the whole thermal cycle process of ladle with a novel steel teeming technology. Journal of Thermal Science and Technology, 2022, 17(3): 22-00259.

[35]  Wangzhong Mu, Susanne K. Michelic, Qiang Wang*. Inclusion/Precipitate Engineering and Thermo-Physical Properties in Liquid Steels and Alloys. Frontiers in Materials, 2022, 9: 922203.

[36]  吴春雷, 刘晓明*, 李德伟, 朱晓伟, 赵立佳, 王强. 电磁旋流水口连铸技术研究进展. 连铸, 2022, 4: 8-15.

2021年论文

[1] Shiying Liu, Guojian Li*, Yonghui Ma, Jianhao Wang, Qiang Wang. Nanomagnetic structure of composite films with cubic array distribution of FeNi nanoparticles. Journal of Colloid and Interface Science, 2021, 583: 33-39.

[2] Shiying Liu, Guojian Li*, Mingdi Lan, Tetsuya Baba, Takahiro Baba, Takao Mori*, Qiang Wang. Thermoelectric performance enhancement of film by pulse electric field and multi-nanocomposite strategy. Small, 2021, 17(40): 2100554.

[3] Shiying Liu, Guojian Li*, Mingdi Lan, Miaoyong Zhu, Koji Miyazaki, Qiang Wang. Role of intrinsic defects on thermoelectric properties of ZnO:Al films. Ceramics International, 2021, 47(12): 17760-17767.

[4] Shiying Liu, Mingdi Lan, Guojian Li*, Yongjun Piao, Ahmoum Hassan, Qiang Wang. Breaking the tradeoff among thermoelectric parameters by multi composite of porosity and CNT in AZO films. Energy, 2021, 225: 120320.

[5] Ahmoum Hassan, Guojian Li*, Sarra Belakry, Mourad Boughrara, Mohd Sukor Su'ait, Mohamed Kerouad, Qiang Wang. Structural, morphological and transport properties of Ni doped ZnO thin films deposited by thermal co-evaporation method. Materials Science in Semiconductor Processing, 2021, 123: 105530.

[6] Ahmoum Hassan, Guojian Li*, Yongjun Piao, Shiying Liu, Ralph Gebauer, Mourad Boughrara, Mohd Sukor Su'ait, Mohamed Kerouad, Qiang Wang. Ab-initio, Monte Carlo and experimental investigation on structural, electronic and magnetic properties of Zn1-xNixO nanoparticles prepared via sol-gel method. Journal of Alloys and Compounds, 2021, 854: 157142.

[7] Ahmoum Hassan, Mohd Sukor Su'ait, Guojian Li, Mourad Boughrara*, Qiang Wang, Mohamed Kerouad, Dibya Prakash Rai. Electronic and thermoelectric properties of chalcopyrite compounds Cu2(XY)S4 (X = Zn, Cd and Y = Sn, Pb): first-principles study. Indian Journal of Physics, 2021, 95(2): 281-287.

[8] Ahmoum Hassan, Puvaneswaran Chelvanathan*, Mohd Sukor Su'ait, Mourad Boughrara, Guojian Li, Ralph Gebauer, Kamaruzzaman Sopian, Mohamed Kerouad, Nowshad Amin, Qiang Wang. Sol-gel prepared Cu2ZnSnS4 (CZTS) semiconductor thin films: Role of solvent removal processing temperature. Materials Science in Semiconductor Processing, 2021, 132: 105874.

[9] Ahmoum Hassan, Mohd Sukor Su'ait*, Narges Ataollahi, Muhammad Ubaidah Syafiq Mustaffa, Mourad Boughrara, Puvaneswaran Chelvanathan, Kamaruzzaman Sopian, Guojian Li, Mohamed Kerouad, Paolo Scardi*, Qiang Wang. Suppressing the secondary phases via N2 preheating of Cu2ZnSnS4 thin films with the addition of oleylamine and/or 1-Dodecanethiol solvents. Inorganic Chemistry Communications, 2021, 134: 109031.

[10] Ahmoum Hassan, Guojian Li*, Mohd Sukor Su'ait, Mourad Boughrara, Puvaneswaran Chelvanathan, Yassine Khaaissa, Mohamed Kerouad, Qiang Wang. The impact of precursor thickness and surface roughness on the power factor of Cu2ZnSnS4 (CZTS) at near room temperature: Spin-coating deposition. Superlattices and Microstructures, 2021, 160: 107091.

[11] Khaaissa Yassine, Abdelali Talbi, Khalid Nouneh*, Outman El Khouja, Hassan Ahmoum, Aurelian Catalin Galca, Ahmed Belahmar, Guojian Li, Qiang Wang. Experimental and numerical simulation of deposition time effect on ZnS thin films for CZTS-based solar cells. Optical and Quantum Electronics, 2021, 53(9): 487.

[12] Mansouri Fadoua, Yassine Khaaissa, Abdelali Talbi, Khalid Nouneh*, Outman El Khouja, Hassan Ahmoum, Aurelian Catalin Galca, Guojian Li, Qiang Wang, Omar Bajjou Mustapha Mabrouki. Molarity dependent on CVD misted ZnS buffer layer performance. International Journal of Thin Film Science and Technology, 2021, 10(3): 239-248.

[13] Guojian Li, Wenzhang Lü, Shiying Liu, Chao Li, Yaoyao Zhou, Qiang Wang*. Multilayer-growth of TiAlN/WS self-lubricating composite coatings with high adhesion and their cutting performance on titanium alloy. Composites Part B: Engineering, 2021, 211: 108620.

[14] Zekun Liu, Shuang Yuan, Yi Yuan, Guojian Li*, Qiang Wang. A thermoelectric generator and water-cooling assisted high conversion efficiency polycrystalline silicon photovoltaic system. Frontiers in Energy, 2021, 15(2): 358-366.

[15] Shuang Yuan1, Xiao Duan1, Jiaqi Liu, Yun Ye, Fusen Lv, Tie Liu, Qiang Wang*, Xinbo Zhang*. Recent progress on transition metal oxides as advanced materials for energy conversion and storage. Energy Storage Materials, 2021, 42: 317-369.

[16] Mai Shi, Shun Wu, Zhendong Han, Shuang Li, Yuting Pan, Shuang Yuan*, Qiang Wang. Utilization of electroless plating to prepare Cu-coated cotton cloth electrode for flexible Li-ion batteries. Rare Metals, 2021, 40(2): 400-408.

[17] 王钟, 刘家岐, 刘琛, 袁双*, 王强. 过渡金属磷化物用于电解水析氢反应的研究进展. 中国有色金属学报, 2021, 31(11): 3344-3361.

Zhong Wang, Jiaqi Liu, Chen Liu, Shuang Yuan*, Qiang Wang. Recent progress of transition metal phosphides in hydrogen evolution reaction of electrolyzed water. The Chinese Journal of Nonferrous Metals, 2021, 31(11): 3344-3361.

[18] Xin Ge*, Hui Zhang, Meng Ge, Xuemin Liu, Shuang Yuan*. Cu nanoparticles supported on Fe3O4@SiO2@N-doped carbon core-shell nanocomposites for C-N coupling reactions in water. ACS Applied Nano Materials, 2021, 4: 11681-11692.

[19] Shuai Chang, Yu Zhang, Bangmin Zhang, Xun Cao, Lei Zhang, Xiaolei Huang*, Wanheng Lu, Chun Yee Aaron Ong, Shuang Yuan, Chaojiang Li, Yizhong Huang, Kaiyang Zeng, Liqun Li, Wentao Yan*, Jun Ding*. Conductivity modulation of 3D-printed shellular electrodes through embedding nanocrystalline intermetallics into amorphous matrix for ultrahigh-current oxygen evolution. Advcance Energy Materials, 2021, 11: 2100968.

[20] Yin Zhang1, Yangqin Cheng1, Jinhua Song, Yanjun Zhang, Qian Shi, Jingxiao Wang, Fanghua Tian, Shuang Yuan, Zhou Su, Chao Zhou, Yang Wang*, Sen Yang*. Functionalization-assistant ball milling towards Si/graphene anodes in high performance Li-ion batteries. Carbon, 2021, 181: 300-309.

[21] Kai Wang, Renru Wang, Xiangkui Zhou, Guojian Li, Jiaao Pei, Qiang Wang*. Preparation of nanocrystalline gradient cemented carbide by adding gradient former of V(C,N). International Journal of Refractory Metals and Hard Materials, 2021, 100: 105630.

[22] Xiao Lyu, Weina Zhang, Shuang Liu, Xiaoyang Wang, Gen Li, Bowen Shi, Kai Wang, Xin Wang, Qiang Wang, Yi Ji*. A magnetic field strategy to porous Pt-Ni nanoparticles with predominant (111) facets for enhanced electrocatalytic oxygen reduction. Journal of Energy Chemistry, 2021, 53: 192-196.

[23] Wenli Pei*, Xiaoyang Wang, Chunhong Liu, Dong Zhao, Chun Wu, Kai Wang, Qiang Wang. Synthesis of hyperbranched Co-Ni-P nanocrystals and their splitting degree dependent HER performances. Electrochimica Acta, 2021, 381: 138286.

[24] Zhimeng Sun, Dong Zhao, Xiaoyang Wang, Miaomiao Yan, Ling Chang, Qiang Wang, Wenli Pei*. Improving the ordering and coercivity of L10-FePt nanoparticles by introducing PtAg metastable phase. Journal of Alloys and Compounds, 2021, 870: 159384.

[25] Dong Zhao, Xiaoyang Wang, Ling Chang, Wenli Pei*, Chun Wu*, Fei Wang*, Luran Zhang, Jianjun Wang, Qiang Wang. Synthesis of super-fine Ll0-FePt nanoparticles with high ordering degree by two-step sintering under high magnetic field. Journal of Materials Science & Technology, 2021, 73: 178-185.

[26] Jiaxin Yang, Guiquan Yao, Shuli Sun, Zhaohui Chen, Shuang Yuan, Kai Wu, Xiaoxiao Fu*, Qiang Wang*, Weibin Cui*. Structural, magnetic properties of in-plane chemically ordered (Mo2/3R1/3)2AlC (R=Gd, Tb, Dy, Ho, Er and Y) MAX phase and enhanced capacitance of Mo1.33C MXene derivatives. Carbon, 2021, 179: 104-110.

[27] Jiaxin Yang, Rui Liu, Nan Jia, Kai Wu, Xiaoxiao Fu*, Qiang Wang*, Weibin Cui*. Novel W-based in-plane chemically ordered (W2/3R1/3)2AlC (R=Gd, Tb, Dy, Ho, Er, Tm and Lu) MAX phases and their 2D W1.33C MXene derivatives. Carbon, 2021, 183: 76-83.

[28] Shuai Li, Jiancheng Yang, Ni Zhao, Qiang Wang, Xiaomeng Fan, Xiaowei Yin, Weibin Cui*. Phase-transition-induced magneto-elastic coupling and negative thermal expansion in (Hf,Ta)Fe1.98 Laves phase. Journal of Magnetism and Magnetic Materials, 2021, 517: 167236.

[29] Yinde Yu, Rui Liu, Lu Zhang, Guiquan Yao, Qiang Wang, Jie Zhu, Sen Yang, Weibin Cui*. Enhanced magnetocaloric effects in Gd2In1-xAlx (0.4≤x≤1) system by the hysteresis-free metamagnetism. Journal of Magnetism and Magnetic Materials, 2021, 524: 167648.

[30] Rui Liu, Shengyu Sun, Guiquan Yao, Qiang Wang, Peng Tong*, Jie Zhu, Sen Yang, Weibin Cui*. Nonhysteretic metamagnetic phase transition in Ho2In1-xAlx (0≤x≤0.4) by hetero-structural alloying. Journal of Magnetism and Magnetic Materials, 2021, 538: 168305.

[31] Shuli Sun, Rui Liu, Guiquan Yao, Zhaohui Chen, Qiang Wang, Jie Zhu, Sen Yang, Weibin Cui*. Magnetic phase transition and magnetic properties in rare-earth-based RAl3C3 layered carbides. Journal of Magnetism and Magnetic Materials, 2021, 540: 168445.

[32] Guiquan Yao, He Chong, Shuai Li, Qiang Wang, Jie Zhu, Sen Yang, Jiamin Chen, Weibin Cui*. The effects of Ga substitution on magnetocaloric effects of the R2Al1‑xGax (R=Gd, Er) phases. Journal of Superconductivity and Novel Magnetism, 2021, 34: 2977-2982.

[33] Guiquan Yao, Shengyu Sun, Jiancheng Yang, Haofa Wu, Qiang Wang, Jie Zhu, Weibin Cui*. Enhanced magnetocaloric effects in hetero-structural alloyed Er2In1-xAlx (0≤x≤0.4) system by novel nonhysteretic metamagnetsm. Scripta Materialia, 2021, 194: 113649.

[34] Shengyu Sun, Yinde Yu, Shuli Sun, Qiang Wang, Tijun Chen, Jiamin Chen*, Yongjian Zhang, Weibin Cui*. Magnetic properties and microstructures of Fe-doped (Ti1-xFex)3AlC2 MAX phase and their MXene derivatives. Journal of Superconductivity and Novel Magnetism, 2021, 34: 1477-1483.

[35] Chun Wu*, Yanan Jiang, Zhiyuan Niu, Dong Zhao, Wenli Pei*, Kai Wang, Qiang Wang. Effects of high magnetic field annealing on FePt nanoparticles with shape-anisotropy and element-distribution-anisotropy. RSC Advances, 2021, 11: 10463-10467.

[36] Chun Wu*, Dazhi Zheng, Xuelei Wang, Dong Zhao, Xiaoyang Wang, Wenli Pei*, Kai Wang, Qiang Wang*. Effects of high magnetic field on the growth and magnetic property of L10-FePtCu nanoparticles. Journal of Magnetism and Magnetic Materials, 2021, 526: 167731.

[37] Donggang Li*, Penghe Cui, Baigang Jin, Ximing Ge, Jianan Liu, Qiang Wang. Fabrication and simulation of a two-stage mold with low magnetic shielding for soft-contact electromagnetic continuous casting. Steel Research International, 2021, 92(8): 2100016.

[38] Donggang Li*, Yanlong Gong, Gen Li, Xiao Lyu*, Zhenqing Dai, Qiang Wang. Three-steps method with self-sacrificial Co to prepare uniform 5 nm-scale Pt catalyst for the oxygen reduction reaction. New Journal of Chemistry, 2021, 45: 13088.

[39] Yang Zheng, Xinxin Xu*, Jin Chen, Qiang Wang*. Surface O2- regulation on POM electrocatalyst to achieve accurate 2e/4e-ORR control for H2O2 production and Zn-air battery assemble. Applied Catalysis B-Environmental, 2021, 285: 119788.

[40] Yubao Xiao, Tie Liu*, Yuxin Tong, Meng Dong, Jinshan Li, Jun Wang, Qiang Wang. Microstructure evolution of peritectic Al-18 at.% Ni alloy directionally solidified in high magnetic fields. Journal of Materials Science & Technology, 2021, 76: 51-59.

[41] Pengcheng Tang, Yuhang Tian, Sishuo Liu, Yupin Lü, Yifei Xie, Jinge Yan, Tie Liu*, Qiang Wang. Microstructure development in eutectic Al–Fe alloy during directional solidification under high magnetic fields at different growth velocities. Journal of Materials Science, 2021, 56: 16134-16144.

[42] Jinge Yan, Tie Liu*, Jing Liao, Jinmei Sun, Xiaoyu Guo, Zhongming Ren, Wang Qiang. Microstructural evolution and solute migration in the mushy zone of peritectic Al-18At. % Ni alloy in high magnetic fields. Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2021, 52(2): 726-740.

[43] Xiaoyu Guo, Meng Dong, Tie Liu*, Yubao Xiao, Shuang Yuan, Qiang Wang. Magnetic domain and magnetic properties of Tb-Dy-Fe alloys directionally solidified and heat treated in high magnetic fields. IEEE Transactions on magnetics, 2021, 57(2): 1-4.

[44] Yixuan He*, Yuhao Wu, Fan Bu, Chengxiong Zou, Zhangchi Bian, Qiliang Huang, Tie Liu, Qiang Wang, Jun Wang, Jinshan Li, Eric Beaugnon*. Effects of an ultra-high magnetic field up to 25T on the phase transformations of undercooled Co-B eutectic alloy. Journal of Materials Science & Technology, 2021, 93: 79-88.

[45] Miaomiao Feng, Hongwei Zhang*, Jingxia Shao, Tie Li, Hong Lei, Qiang Wang. Prediction of macrosegregation of Fe-C peritectic alloy ingot through coupling with thermodynamic phase transformation path. Acta Metallurgica Sinica, 2021, 57(8): 1057-1072.

[46] Shan Zhang, Hongwei Zhang*, Miao Miao, MiaoMiao Feng, Hong Lei, Qiang Wang. Cellular automaton simulation on cooperative growth of M7C3 carbide and austenite in high Cr cast irons. Acta Physica Sinica, 2021, 70(21): 218102.

[47] Weixian Wang, Hongwei Zhang*, Keiji Nakajima, Hong Lei, Guofeng Tang, Xinghua Wang, Wangzhong Mu, Maofa Jiang. Prediction of final solidification position in continuous casting bearing steel billets by slice moving method combined with Kobayashi approximation and Considering MnS and Fe3P precipitation. ISIJ international, 2021, 61 (11): 2703–2714.

[48] Lianyu Wang, Zeyi Liu, Ji Qi, Ming He, Masamichi Sano, Xiaoming Liu, Lijia Zhao, Qiang Wang*. Bubble refinement by non-invasive rotating flow. Chemical Engineering Science, 2021, 246: 112908.

[49] Ming He, Qingwei Wang, Lijia Zhao, Xiaoming Liu, Qiang Wang*. Analysis of air-mist cooling effect for coil in the electromagnetic induction controlled automated steel teeming system. ISIJ International, 2021, 61(9): 2457-2463.

[50] Chunlei Wu, Dewei Li, Xiaowei Zhu, Hongyan Shi, Xiaoming Liu, Lijia Zhao, Hong Lei, Qiang Wang*. Experimental study of macrostructure and segregation by a novel electromagnetic nozzle swirling flow combined with electromagnetic stirring in continuous casting. Metallurgical and Materials Transaction B, 2021, 52(3): 1207-1212.

[51] Chunlei Wu, Xiaoming Liu*, Qiang Wang, Ming He, Xiaowei Zhu, Dewei Li, Lijia Zhao, Hong Lei. Macrosegregation prediction by evaluating liquid level fluctuation in round billet continuous casting with electromagnetic nozzle swirling flow. Metallurgical and Materials Transaction B, 2021, 52: 3571-3575.

[52] Xiaoming Liu, Zhiyu Ren, Tian Yang, Luping Chen, Qiang Wang*, Ji Zhou*. Tunable metamaterial absorber based on resonant strontium titanate artificial atoms. Journal of Materials Science & Technology, 2021, 62: 249-253.

[53] Luping Chen, Zhiyu Ren, Xiaoming Liu, Kai Wang, Qiang Wang*. Infrared-visible compatible stealth based on Al-SiO2 nanoparticle composite film. Optics Communications, 2021, 482: 126608.

[54] Xiaozhi Wang, Yu Huan*, Peiyao Zhao, Xiaoming Liu*, Tao Wei, Qiwen Zhang, Xiaohui Wang. Optimizing the grain size and grain boundary morphology of (K,Na) NbO3-based ceramics: Paving the way for ultrahigh energy storage capacitors. Journal of Materiomics, 2021, 7: 780-789.

[55] 石红燕, 吴春雷, 刘利, 田盛林, 刘晓明*, 王强. 电磁旋流水口对圆坯结晶器液面波动的控制. 连铸, 2021, 46(6): 24-28.

Hongyan Shi, Chunlei Wu, Li Liu, Shenglin Tian, Xiaoming Liu*, Qiang Wang. Liquid level fluctuation in mold controlled by electromagnetic nozzle swirling flow in continuous casting of round bloom. Continuous Casting, 2021, 46(6): 24-28.

[56] Lijia Zhao*, John G. Speer*, Peter Hodgson*, Nobuhiro Tsuji*. Editorial: New developments and challenges in advanced high-strength steels. Frontiers in Materials, 2021, 8: 786932.

[57] Bin Cao, Yi Yuan*, Yerbol Arman, Lei Feng, Zongqiang Zhou, Tiansheng Wang, Qiang Wang. Optimization of halbach magnetic roller for eddy current separation based on the response surface method and multi-objective genetic algorithm. Journal of Cleaner Production, 2021, 278: 123531.

[58] 陈进*, 张伟, 李传文, 苏志坚, 田溪岩, 王强. PBL教学法在冶金概论课程教学中的应用. 中国冶金教育, 2021, 2: 24-26.

Jin Chen*, Wei Zhang, Chuanwen Li, Zhijian Su, Xiyan Tian, Qiang Wang. Application of PBL teaching method in course of introduction to metallurgy. China Metallurgical Education, 2021, 2: 24-26.

     2020年论文

[1] Shiying Liu, Guojian Li*, Mingdi Lan, Miaoyong Zhu, Takao Mori, Qiang Wang. Improvement of thermoelectric properties in evaporated ZnO:Al films by CNT and Au nanocomposites.Journal of Physical Chemistry C, 2020, 124(23): 12713-12722.

[2] Wenzhang Lü, Guojian Li*, Yaoyao Zhou, Shiying Liu, Kai Wang, Qiang Wang. Effect of high hardness and adhesion of gradient TiAlSiN coating on cutting performance of titanium alloy. Journal of Alloys and Compounds, 2020, 820: 153137.

[3] Shiying Liu, Mingdi Lan, Guojian Li*, Yi Yuan, Baohai Jia, Qiang Wang. Co dopant drives surface smooth and improves power factor of evaporated SnSe films. Ceramics International, 2020, 46(10B): 16578-16582.

[4] Zhipeng Wu, Jialei Wu, Yao Li, Guojian Li*. Effect of Cu content on electrical properties of evaporated Cu-Se thermoelectric films. Ceramics International, 2020, 46(13): 21617-21622.

[5] Jiaojiao Du, Guojian Li*, Shiying Liu, Tie Liu, Chun Wu, Qiang Wang. Enhancement of magnetic properties by adjusted structure in Fe nanocrystalline films via annealing and applying high magnetic field at different film-formation stages. Journal of Magnetism and Magnetic Materials, 2020, 495: 165857.

[6] Shiying Liu, Yongjun Piao, Guojian Li*, Mingdi Lan, Yi Yuan, Qiang Wang. Thickness-dependent thermoelectric properties of evaporated ZnO:Al films assisted by RF atomic source. Journal of Applied Physics, 2020, 127(5): 055301.

[7] Shiying Liu, Guojian Li*, Mingdi Lan, Yongjun Piao, Yanan Zhang, Qiang Wang. Study on the thermoelectric properties of porous Bi-Te films deposited using thermal evaporation on AAO template. Current Applied Physics, 2020, 20(3): 400-405.

[8] Shiying Liu, Guojian Li*, Mingdi Lan, Yongjun Piao, Koji Miyazaki, Qiang Wang. Effect of growth modes on electrical and thermal transport of thermoelectric ZnO:Al films. Acta Crystallographica Section B-Structural Science Crystal Engineering and Materials, 2020, 76: 259-266.

[9] Shiying Liu, Guojian Li*, Lin Xiao, Baohai Jia, Zhongyi Xu, Qiang Wang. Effect of content and thickness on the microstructure as well as optical and electrical properties of oxidized Al doped ZnO films. Scientia Iranica, 2020, 27(3): 1019-1027.

[10] Hassan Ahmoum, Mourad Boughrara*, Mohd Sukor Su’ait, Guojian Li, Siddheshwar Chopra, Qiang Wang, Mohamed Kerouad. Understanding the effect of the carbon on the photovoltaic properties of the Cu2ZnSnS4. Materials Chemistry and Physics, 2020, 251: 123065.

[11] Hassan Ahmoum, Puvaneswaran Chelvanathan*, Mohd Sukor Su’ait*, Mourad Boughrara, Guojian Li, Ali Hassan Al-Waeli, Kamaruzzaman Sopian, Mohamed Kerouad, Nowshad Amin. Impact of preheating environment on microstructural and optoelectronic properties of Cu2ZnSnS4 (CZTS) thin films deposited by spin-coating. Superlattices and Microstructures, 2020, 140: 106452.

[12] Xiaoyang Wang, Chunhong Liu, Chun Wu, Xiaomin Tian, Kai Wang, Wenli Pei*, Qiang Wang*. Magnetic field assisted synthesis of Co2P hollow nanoparticles with controllable shell thickness for hydrogen evolution reaction. Electrochimica Acta, 2020, 330: 135191.

[13] Shuli Sun, Jiaxin Yang, Xiao Chen, Weibin Cui*, Jianqi Huang, Teng Yang*, Zhidong Zhang, Qiang Wang. A novel two-dimensional rare-earth carbide synthesized by selective etching Al-C slab from nanolaminated YAl3C3. Scripta Materialia, 2020, 181: 10-14.

[14] Wenli Pei*, Dong Zhao, Chun Wu*, Zhimeng Sun, Chunhong Liu, Xiaoyang Wang, Jian Zheng, Miaomiao Yan, Jianjun Wang, Qiang Wang. Direct synthesis of L10‑FePt nanoparticles with high coercivity via Pb addition for applications in permanent magnets and catalysts. ACS Applied Nano Materials, 2020, 3(2): 1098-1103.

[15] Xuhai Li1*, Zhiqiang Wang1, Xiao Duan1, Liang Xu, Ming Yang*, Shuang Yuan*, Chuanmin Meng, Qiang Wu, Qiang Wang. A novel layered birnessite-type sodium molybdate as dual-ion electrodes for high capacity battery. Electrochimica Acta, 2020, 363: 137229.

[16] Yue Zhao, Kai Wang, Shuang Yuan, Yonghui Ma, Guojian Li, Qiang Wang*. The accelerating nanoscale Kirkendall effect in Co films-native oxide Si (100) system induced by high magnetic fields. Journal of Materials Science & Technology, 2020, 46: 127-135.

[17] Qian Shi, Yin Zhang, Kaiyun Chen, Shuang Yuan, Tieyan Chang, Fanghua Tian, Wei Si, Yangqin Cheng, Kangkang Yao, Sen Yang*, Xuan Zhou*. Cobalt vacancies assisted ion diffusion in Co2AlO4 carbon nanofibers for enhancing lithium battery performance. Dalton Transactions, 2020, 49: 10127-10137.

[18] Xiangkui Zhou*, Renru Wang, Chensi Li, Xiaobin Wang, Kai Wang, Qiang Wang. Effect of high-energy ball milling on the microstructure and properties of ultrafine gradient cemented carbides. International Journal of Applied Ceramic Technology, 2020, 17(5): ‏2298-2306.

[19] Xiao Lyu, Yi Jia*, Xin Mao, Daohao Li, Gen Li, Linzhou Zhuang, Xin Wang, Dongjiang Yang, Qiang Wang, Aijun Du, Xiangdong Yao*. Gradient-concentration design of stable core-shell nanostructure for acidic oxygen reduction electrocatalysis. Advanced Materials, 2020, 32(32): 2003493.

[20] Dandan Xu, Shijie Wu, Xinxin Xu*, Qiang Wang*. Hybrid Zn battery with coordination-polymer-derived, oxygen vacancy-rich Co3O4 as a cathode material, ACS Sustainable Chemistry & Engineering, 2020, 8(11): 4384-4391.

[21] Ning Liu, Honglu Hu, Xinxin Xu*, Qiang Wang*. Hybrid battery integrated by Zn-air and Zn-Co3O4 batteries at cell level. Journal of Energy Chemistry, 2020, 49, 375-383.

[22] Hang Liu, Juan Zhang, Xinxin Xu*, Qiang Wang*. A polyoxometalate-based binder-free capacitive deionization electrode for highly efficient sea water desalination. Chemistry-A European Journal, 2020, 26(19): 4403-4409.

[23] Tie Liu, Yubao Xiao, Zhengyang Lu, Hirota Noriyuki, Guojian Li, Shuang Yuan, Qiang Wang*. Wetting behaviors of molten melt drops on polycrystalline Al2O3 substrates in high magnetic fields. Journal of Materials Science & Technology, 2020, 41: 187-190.

[24] Meng Dong, Tie Liu*, Xiaoyu Guo, Yiru Liu, Shulin Dong, Qiang Wang. Enhancement of mechanical properties of Tb0.27Dy0.73Fe1.95 alloy by directional solidification in high magnetic field. Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2020, 785: 139377.

[25] Wen Wang, Shenyi Zhang, Ke Qiao*, Kuaishe Wang, Pai Peng, Shennan Yuan, Shanyong Chen, Ting Zhang, Qiang Wang, Tie Liu, Qi Yang. Microstructure and mechanical properties of friction stir welded joint of TRIP steel. Journal of Manufacturing Processes, 2020, 56: 623-634.

[26] Pengfei Gao, Tie Liu*, Chao Wang, Anping Wu, Zhanliang Li, Guojian Li, Qiang Wang. Frequency dependence of sound field effect on microstructure and wear performance of plasma sprayed Ni-10wt.%Al coatings. Surface and Coatings Technology, 2020, 396: 125967.

[27] Shulin Dong, Tie Liu*, Meng Dong, Xiaoyu Guo, Shuang Yuan, Qiang Wang. Enhanced magnetostriction of Tb-Dy-Fe via simultaneous <111>-crystallographic orientation and -morphological alignment induced by directional solidification in high magnetic fields. Applied Physics Letters, 2020, 116(5): 053903.

[28] Lei Li*, Wenlei Liang, Chunyan Ban, Yusong Suo, Guanchen Lv, Tie Liu, Xiangjie Wang, Hui Zhang, Jianzhong Cui. Effects of a high-voltage pulsed magnetic field on the solidification structures of biodegradable Zn-Ag alloys. Materials Characterization, 2020, 163: 110274.

[29] Chengyu He, Tie Liu*, Lei Tian, Yubao Xiao, Shuang Yuan, Qiang Wang. Effect of crystal orientation on droplet wetting behavior on single-crystal Al2O3 substrates: An experimental study. Physics of Fluids, 2020, 32: 127110.

[30] Yubao Xiao, Tie Liu*, Zhengyang Lu, Guojian Li, Shuang Yuan, Hirota Noriyuki, Zhongming Ren, Qiang Wang. Wetting transition in a molten metal and solid substrate system in high magnetic fields. Metallurgical and Materials Transactions A-Physical Metallurgy and Materials Science, 2020, 51: 2333-2343.

[31] Shulin Dong, Ding Xin, Ruirun Chen*, Jingjie Guo, Hengzhi Fu. High-temperature deformation resistance and creep resistance of a TiAl-based alloy fabricated by cold crucible directional solidification technology. China Foundry, 2020, 17: 378-383.

[32] Hongwei Zhang*, Shan Zhang, Yuchen Wang, Yuzhou Hao, Miao Miao, Kazuhiko Nakajima, Hong Lei, Qiang Wang, Jicheng He. Cellular automaton modelling of M7C3 carbide growth during solidification of Fe-C-Cr alloy. IOP Conference Series: Materials Science and Engineering, 2020, 861, 012046.

[33] 张睍韦, 张红伟*, 雷洪, 王强. 球墨铸铁离异共晶凝固组织生长模拟. 钢铁研究学报, 2020, 32(9): 816-825.

Xianwei Zhang, Hongwei Zhang, Hong Lei, Qiang Wang. Simulation of divorced eutectic microstructure evolution in ductile iron solidification process. Journal of Iron and Steel Research, 2020, 32(9): 816-825.

[34] Chunlei Wu, Qiang Wang*, Dewei Li, Xiaowei Zhu, Baigang Jin, Lianyu Wang, Hong Lei. Macrosegregation under new flow pattern and temperature distribution induced by electromagnetic swirling flow in nozzle during continuous casting of square billet. Journal of Materials Research and Technology, 2020, 9(3): 5630-5639.

[35] Ming He, Xianliang Li, Qingwei Wang, Qiang Wang*, Zhiyuan Liu, Chongjun Wang. Influence factors analysis of Fe-C alloy blocking layer in the electromagnetic induction-controlled automated steel teeming technology. Acta Metallurgica Sinica (English Letters), 2020, 33: 671-678.

[36] Yanan Hao, Zunpeng Feng, Zhengda He, Jiameng Zhang, Xiaoming Liu*, Jing Qin, Limin Guo, Ke Bi*. Gradient design of ultrasmall dielectric nanofillers for PVDF-based high energy-density composite capacitors. Materials & Design, 2020, 189: 108523.

[37] Xiaoming Liu, Zhiyu Ren, Tian Yang, Yanan Hao, Qiang Wang*, Ji Zhou*. Tunable dielectric metamaterial based on strontium titanate artificial atoms. Scripta Materialia, 2020, 184: 30-33.

[38] Zhiyu Ren, Luping Chen, Xiaoming Liu, Guojian Li, Kai Wang, Qiang Wang*. Preparation, characterization and simulation of Al@SiO2 nanoparticle composite films with infrared-visible stealth. Infrared Physics & Technology, 2020, 111: 103472-103477.

[39] 刘晓明, 任志宇, 陈陆平, 李国建, 王强*, 周济. 红外隐身超材料. 材料工程, 2020, 48(6): 1-11.

Xiaoming Liu, Zhiyu Ren, Luping Chen, Guojian Li, Qiang Wang*, Ji Zhou. Infrared stealth metamaterials. Journal of Materials Engineering, 2020, 48(6): 1-11.

[40] Tian Yang, Xiaoming Liu, Haohua Li, Chen Wang, Jingbo Sun, Ji Zhou*. THz polarization conversion metamaterial based on bianisotropic response of split-ring resonators. Journal of Physics D: Applied Physics, 2020, 53: 345102.

[41] Tian Yang, Xiaoming Liu, Chen Wang, Zetan Liu, Jingbo Sun, Ji Zhou*. Polarization conversion in terahertz planar metamaterial composed of split-ring resonators. Optics Communications, 2020, 472: 125897.

[42] Tian Yang, Xiaoming Liu, Chen Wang, Feilou Wang, Ji Zhou*. High-efficiency cross-polarization conversion metamaterial using spiral split-ring resonators. AIP Advances, 2020, 10: 095210. 

2019年论文

[1] Guojian Li, Shiying Liu, Yonghui Ma, Ling Chang, Jianhao Wang, Qiang Wang*. Nanostructure evolution of Co-evaporated FeNi-SiO2 magnetic nanoparticle film prepared under high magnetic field. IEEE Transaction on Magnetics, 2019, 55(2): 2000604.

[2] Guojian Li*, Hassan Ahmouma*, Shan Liu, Shiying Liu, Mohd Sukor Su'ait, Mourad Boughrara, Mohamed Kerouad, Qiang Wang. Theoretical insight into magnetic and thermoelectric properties of Au doped ZnO compounds using density functional theory. Physica B: Condensed Matter, 2019, 562: 67-74.

[3] Yang Gao, Guojian Li*, Ling Chang, Shan Liu, Shiying Liu, Qiang Wang. Effects of Cu contents on defects formation in molecular dynamics simulations of ZnO:Cu films deposition. Applied Surface Science, 2019, 465: 67-72.

[4] Yue Zhao, Kai Wang, Shuang Yuan, Guojian Li*, Yonghui Ma, Qiang Wang. Solid-state dewetting in polycrystalline Co films on native oxide Si(100) by Kirkendall effects. Journal of Physics Chemistry C, 2019, 123(32): 19572-19578.

[5] Xudong Sui*, Guojian Li*, Haibin Zhou, Shuaituo Zhang, Yuan Yu, Qiang Wang, Junying Hao. Evolution behavior of oxide scales of TiAlCrN coatings at high temperature. Surface & Coatings Technology, 2019, 360: 133-139.

[6] Shiying Liu, Guojian Li*, Yongjun Piao, Ling Chang, Yang Gao, Qiang Wang. Improved thermoelectric properties in Zn0.94Al0.06Ox films caused by oxygen defects via oxygen pressure. Journal of Physics and Chemistry of Solids, 2019, 124: 13-18.

[7] Baohai Jia, Shiying Liu, Guojian Li*, Shan Liu, Yaoyao Zhou, Qiang Wang. Study on thermoelectric properties of co-evaporated Sn-Se films with different phase formations. Thin Solid Films, 2019, 672: 133-137.

[8] Yang Gao, Guojian Li*, Shiying Liu, Ling Chang, Zhao Wang, Qiang Wang*. Effects of Cu-Zn phases on electronic properties in ZnO:Cu films. Journal of the American Ceramic Society, 2019, 102(7): 4170-4177.

[9] Ruitao Qu*, Shaogang Wang, Guojian Li, Ruofu Wang, Xiaodi Wang, Jieshao Wu, Zhefeng Zhang*. Shear band fracture in metallic glass: Hot or cold?. Scripta Materialia, 2019, 162: 136-140.

[10] Xiao Duan, Chun Wu, Xiaoyang Wang, Xiaomin Tian, Wenli Pei*, Kai Wang, Qiang Wang*. Evolutions of microstructure and magnetic property of wet-chemical synthesized FePt nanoparticles assisted by high magnetic field. Journal of Alloys and Compounds, 2019, 797: 1372-1377.

[11] Chun Wu, Xiaoyang Wang, Wenli Pei*, Dong Zhao, Kai Wang, Guojian Li, Qiang Wang*. Tailoring the shape and size of wet-chemical synthesized FePt nanoparticles by controlling nucleation and growth with a high magnetic field. Nanoscale, 2019, 11(32): 15023.

[12] Xiaoyang Wang, Xiaomin Tian, Xiao Duan, Chun Wu, Wenli Pei*, Kai Wang, Shuang Yuan, Qiang Wang*. Hyperbranched Co2P nanocrystals with 3D morphology for hydrogen generation in both alkaline and acidic media. RSC Advances, 2019, 9(36): 20612-20617.

[13] Wenli Pei*, Dong Zhao, Chun Wu, Xiaoyang Wang, Kai Wang, Jianjun Wang, Qiang Wang. Facile liquid-assisted one-step sintering synthesis of superfine L10-FePt nanoparticles. RSC Advances, 2019, 9(62): 36034-36039.

[14] Xiangkui Zhou*, Yan Wang, Renru Wang, Kai Wang, Qiang Wang, Jianxiu Liu, Zhiling Xiao. Preparation and microstructure of layered structure functional gradient cemented carbides. World Scientific, 2019, 12: 1950053.

[15] Xiangkui Zhou*, Kai Wang, Chensi Li, Qiang Wang, Shen Wu, Jianxiu Liu. Effect of ultrafine gradient cemented carbides substrate on the performance of coating tools for titanium alloy high speed cutting. International Journal of Refractory Metals & Hard Materials, 2019, 84: 105024.

[16] Shuang Yuan, Weibin Chen, Lina Zhang, Zekun Liu, Jiaqi Liu, Tie Liu, Guojian Li, Qiang Wang*. Nitrogen-doped graphene-buffered Mn2O3 nanocomposite anodes for fast charging and high discharge capacity lithium-ion batteries. Small, 2019, 15: 1903311.

[17] 袁双, 刘泽昆, 刘家岐, 王强*. 强磁场条件下材料可控制备的研究进展. 中国材料进展, 2019, 38(8): 759-767.

Shuang Yuan, Zekun Liu, Jiaqi Liu, Qiang Wang*. Research progress on controllable preparation of materials under high magnetic fields. Materials China, 2019, 38(8): 759-767.

[18] Huimin Wang, Guangzhao Qin, Jiayue Yang, Zhenzhen Qin, Yagang Yao, Qiang Wang*, Ming Hu*. First-principles study of electronic, optical and thermal transport properties of group III–VI monolayer MX (M=Ga, In; X=S, Se). Journal of Applied Physics, 2019, 125(24): 245104.

[19] Yaqin Wang, Xinxin Xu*, Jin Chen, Qiang Wang*. Polyoxometalate on rice paper derived 3D mesoporous carbon paper: An electrocatalyst as cathode for asymmetric Zn-air battery. Journal of Power Sources, 2019, 430: 201-209.

[20] Lusha Wang, Minghui Jia, Xinxin Xu*, Qiang Wang*. Asymmetric aqueous Zn-air battery with high voltage of 2.16 V by metal organic framework derived Co-Nx based bi-functional electrocatalyst as cathode. Journal of Power Sources, 2019, 437: 226892.

[21] Xiaoxuan Wang, Xinxin Xu*, Jin Chen, Qiang Wang*. Combination of Zn-NiCo2S4 and Zn-Air batteries at the cell level: A hybrid battery makes the best of both worlds. ACS Sustainable Chemistry Engineering, 2019, 7(14): 12331-12339.

[22] Hongwei Zhang*, Keiji Nakajima, Mengmeng Su, Shaoshao Gao, Hong Lei, Qiang Wang, Jicheng He. Prediction of carbide precipitation using a combined partial equilibrium-para-equilibrium-lever rule approximation in automobile gear materials. IOP Publishing, 2019, 529(1): 012009.

[23] Meng Dong, Tie Liu*, Xiaoyu Guo, Yubao Xiao, Yi Yuan, Qiang Wang. Magnetostriction induced by crystallographic orientation and morphological alignment in a TbFe2-based alloy. Journal of Applied Physics, 2019, 125(3): 033901.

[24] Yubao Xiao, Tie Liu*, Zhengyang Lu, Shuang Yuan, Guojian Li, Shulin Dong, Qiang Wang. Instrument to characterize the wetting behavior of molten metal on a solid substrate under high magnetic field. Review of Scientific Instruments, 2019, 90(6): 063902.

[25] Chao Wang, Pengfei Gao*, Tie Liu*, Liangfeng Li, Enze Wang, Qiang Wang. Microstructure and wear performance of Ni-10 wt.%Al coatings plasma sprayed on Ni-based superalloys with a sound field. Surface & Coatings Technology, 2019, 370: 157-162.

[26] Shulin Dong, Tie Liu, Yanjun Li, Ping Wang, Qiang Wang*. Hot deformation processing capability of Fe-contained high Nb TiAl-based alloy. Vacuum, 2019, 159: 391-399.

[27] Shulin Dong, Tie Liu*, Meng Dong, Shuang Wang, Wen Wang, Kuaishe Wang, Qiang Wang. Crystallographic orientation of primary and eutectic phases in a hypoeutectic Mn-Sb alloy induced by solidification in high magnetic fields. Journal of Applied Crystallography, 2019, 52(5): 945-950.

[28] Fulong Wei, Jinsong Zhang, Zhaohui Chen, Xiaoxiao Fu*, Xiaomeng Fan, Xiaowei Yin, Peng Jia, Weibin Cui*, Qiang Wang. Coercivity evolution and suppressed thermally activated defects in diffusion processed Nd-Fe-B films. Journal of Magnetism and Magnetic Materials, 2019, 485: 401-406.

[29] Shaohui Chen, Guiquan Yao, Jinsong Zhang, Xiaomeng Fan, Xiaowei Yin, Zixin Chen, Weibin Cui*, Qiang Wang. Magnetic transition and magnetocaloric effect of Gd4Sb3-xRx (R=Si, Ge, Sn, 0≤x≤0.75) compounds. AIP Advances, 2019, 9(3): 035206.

[30] Guiquan Yao, Fulong Wei, Jinsong Zhang, Xiaomeng Fan, Xiaowei Yin, Weibin Cui*, Qiang Wang*. The enhanced magnetocaloric effect in Dy2In1-xAlx by a non-hysteresis metamagnetic phase transition. Scripta Materialia, 2019, 167: 37-40.

[31] Zhihao Zhang, Guiquan Yao, Lu Zhang, Peng Jia, Xiaoxiao Fu*, Weibin Cui*, Qiang Wang. Magnetic phase transition and room-temperature magnetocaloric effects in (Al, M)Fe2B2 (M=Si, Ga) compounds. Journal of Magnetism and Magnetic Materials, 2019, 484: 154-158.

[32] Jinsong Zhang, Guiquan Yao, Shaohui Chen, Fulong Wei, Xiaomeng Fan, Xiaowei Yin, Zixin Chen, Weibin Cui*, Qiang Wang. The effects of Ge occupation and hydrostatic pressure on the metamagnetic phase transition and magnetocaloric effect in Mn2Sb alloy. AIP Advances, 2019, 9(3): 035106.

[33] Ming He, Xianliang Li, Xingan Liu, Xiaowei Zhu, Tie Liu, Qiang Wang*. Coil ambient temperature and its influence on the formation of blocking layer in the electromagnetic induction-controlled automated steel-teeming system. Acta Metallurgica Sinica (English Letters), 2019, 32(3): 391-400.

[34] Xianliang Li, Ming He, Xiaowei Zhu, Qingwei Wang, Qiang Wang*. Analysis of heat insulation for coil in the electromagnetic induction controlled automated steel-teeming system. Metals, 2019, 9(4): 434.

[35] 何明, 李显亮, 王情伟, 王连钰, 王强*. 磁屏蔽对电磁出钢系统中感应加热电源功率损耗的影响. 金属学报, 2019, 55(2): 249-257.

Ming He, Xianliang Li, Qingwei Wang, Lianyu Wang, Qiang Wang*. Influence of magnetic shielding on the power loss of induction heating power supply in the electromagnetic induction controlled automated steel teeming system. Acta Metallurgica Sinica, 2019, 55(2): 249-257.

[36] 吴春雷, 李德伟, 朱晓伟, 王强*, Oleksandr Tretiak, 雷洪. 电磁旋流水口连铸技术对小方坯凝固组织形貌和宏观偏析的影响. 金属学报, 2019, 55(7): 68-77.

Chunlei Wu, Dewei Li, Xiaowei Zhu, Qiang Wang*, Oleksandr Tretiak, Hong Lei. Influence of electromagnetic swirling flow in nozzle on solidification structure and macrosegregation of continuous casting square billet. Acta Metallurgica Sinica, 2019, 55(7): 68-77.

2018年论文

[1] Guojian Li, Lin Xiao, Shiying Liu, Huimin Wang, Yang Gao, Qiang Wang*. Effect of nanowires in microporous structures on the thermoelectric properties of oxidized Sb-doped ZnO film. Journal of the European Ceramic Society, 2018, 38: 1608-1613.

[2] 李国建, 常玲, 刘诗莹, 李萌萌, 崔伟斌, 王强*. 强磁场下Sm-Fe薄膜不同晶态组织演化及磁性能调控. 物理学报, 2018, 67(9): 097501.

[3] Guojian Li, Yang Gao, Shiying Liu, Zhao Wang, Shan Liu, Qiang Wang*. Microstructural evolution of the oxidized ZnO: Cu films tuned by high magnetic field. Journal of Alloys and Compounds, 2018, 753: 673-678.

[4] Shiying Liu, Yonghui Ma, Ling Chang, Guojian Li*, Jianhao Wang, Qiang Wang. Effect of doping SiO2 and applying high magnetic field during the film growth on structure and magnetic properties of evaporated Fe films. Thin Solid Films, 2018, 651: 1-6.

[5] Weibin Cui, Weijun Ren, Zhidong Zhang, Xiaoqian Zhou, Hui Zhong, Qiang Wang*. Lattice distortion tuning of the metamagnetic phase transition in tetragonal Cu2Sb-type Mn1.95V0.05Sb alloy. Scripta Materialia, 2018, 143: 59-62.

[6] Yigao Xie, Yang Yang, Tongbo Zhang, Yanqing Fu, Qingzheng Jiang, Shengcan Ma, Zhenchen Zhong, Weibin Cui*, Qiang Wang. Microstructure evolution and coercivity enhancement in Nd-Fe-B thin films diffusion-processed by R-Al alloys (R=Nd, Pr). AIP Advances, 2018, 8(5): 056202.

[7] Guojian Li, Jiaojiao Du, Qiang Wang*, Jianhao Wang, Yang Gao, Shiying Liu. Columnar growth structure dependent soft magnetic and electrical transport properties of Co nanocrystalline films evaporated with a high magnetic field. Materials Chemistry and Physics, 2018, 217: 493-503.

[8] Jiaojiao Du, Guojian Li*, Mengmeng Li, Jianhao Wang, Yang Gao, Qiang Wang. Effect of high magnetic field on the growth, magnetic, and electrical properties of nanocrystalline Ni films with different thicknesses and growth rates. Physica Status Solidi A-Applications and Materials Science, 2018, 215(13): 1700925.

[9] Yongjian Wu, Zhanjie Wang*, Xingkun Ning, Qiang Wang, Wei Liu, Zhidong Zhang. Room temperature magnetoresistance properties in self-assembled epitaxial La0.7Sr0.3MnO3: NiO nanocomposite thin films. Materials Research Letters, 2018, 6(9): 489-494.

[10] Guojian Li, Huimin Wang, Yang Gao, Shiying Liu, Renxiu Tian, Qiang Wang*. Control of chemical states on magnetic properties of Co-doped ZnO films prepared by oxidizing evaporated Co-Zn film with different growth modes. Ceramics International, 2018, 44: 7172-7179.

[11] Guojian Li, Xiao Lin, Shiying Liu, Baohai Jia, Qiang Wang*. Sb content dependent thermoelectric properties of the p-type ZnO:Sb films fabricated by oxidation method. Applied Surface Science, 2018, 439: 82-87.

[12] Xudong Sui, Guojian Li*, Chenjie Jiang, Kai Wang, Yingjie Zhang, Junying Hao, Qiang Wang. Improved toughness of layered architecture TiAlN/CrN coatings for titanium high speed cutting. Ceramics International, 2018, 44: 5629-5635.

[13] Shiying Liu, Guojian Li*, Lin Xiao, Baohai Jia, Yang Gao, Qiang Wang. Effect of morphology evolution on the thermoelectric properties of oxidized ZnO thin films. Applied Surface Science, 2018, 436: 354-361.

[14] Yang Gao, Guojian Li*, Yongjun Piao, Shiying Liu, Shan Liu, Qiang Wang. Size-depdendent cuboctahedron-icosahedron transformations of Co-based bimetallic by molecular dynamics simulation. Materials Letters, 2018, 232: 8-10.

[15] Shiying Liu, Shan Liu, Yaoyao Zhou, Yongjun Piao, Guojian Li*, Qiang Wang. Transparent ZnO:Al films with large breakdown voltage and resistivity. Applied Physics Letters, 2018, 113(3): 032102.

[16] Guojian Li, Shiying Liu, Yongjun Piao, Baohai Jia, Yi Yuan, Qiang Wang. Joint improvement of conductivity and Seebeck coefficient in the ZnO:Al thermoelectric films by tuning the diffusion of Au layer. Materials & Design, 2018, 154: 41-50.

[17] Guojian Li, Shiying Liu, Yonghui Ma, Ling Chang, Jianhao, Wang, Qiang Wang*. Nanostructure evolution of Co-evaporated FeNi-SiO2 magnetic nanoparticle film prepared under high magnetic field. IEEE Transaction on Magnetics, 2018, 99: 1-4.

[18] Weibin Cui*, Tongbo Zhang, Xiaoqian Zhou, Qiang Wang, Xinguo Zhao, Wei Liu*, Zhidong Zhang. Coercivity enhancement and microstructural optimization in diffusion-processed Ce-Nd-Fe-B-based films. Thin Solid Films, 2018, 645: 1-4.

[19] Huimin Wang, Guangzhao Qin, Guojian Li, Qiang Wang, Ming Hu. Unconventional thermal transport enhancement with large atom mass: a comparative study of 2D transition dichalcogenides. 2D Materials, 2018, 5(1): 015022.

[20] Huimin Wang, Guangzhao Qin, Zhenzhen Qin, Guojian Li, Qiang Wang*, Ming Hu*. Lone-Pair electrons do not necessarily lead to low lattice thermal conductivity: an exception of two-dimensional penta-CN2. Journal of Physical Chemistry Letters, 2018, 9(10): 2474-2483.

[21] 王强*, 董蒙, 孙金妹, 刘铁, 苑轶. 强磁场下合金凝固过程控制及功能材料制备. 金属学报, 2018, 54: 742-756.

[22] Shaoxu Tu, Yilang Mai, Yuxin Tong, Tie Liu*, Meng Dong, Qiang Wang. Enhancement of magnetostrictive performance of Tb0.27Dy0.73Fe1.95 by solidification in high magnetic field gradient. Journal of Alloys and Compounds, 2018, 741: 1006-1011.

[23] Tie Liu, Meng Dong, Pengfei Gao, Yubao Xiao, Yi Yuan, Qiang Wang*. Effect of cooling rate on magnetic domain structure and magnetic properties of Tb0.27Dy0.73Fe1.95 alloys solidified in high magnetic field. AIP Advances, 2018, 8(5): 056421.

[24] Tie Liu, Ling Miao, Kai Wang, Li Wang, Jinmei Sun, Qiang Wang*. High magnetic-field-induced solute interception among dendrite arms in the mushy zone of a Mn-Sb alloy. Journal of Applied Physics, 2018, 124: 045901.

[25] Lei Li, Chunyan Ban*, Yuantong Bi, Ruixue Zhang, Haitao Zhang, Tie Liu, Qingfeng Zhu, Yubo Zuo, Xiangjie Wang, Jianzhong Cui. A crystallographic study on the growth of Laves phase MgZn2 during the solidification process of Zn-Mg alloy under a high magnetic field. Journal of Materials Science, 2018, 53(21): 15181-15195.

[26] Tie Liu, Qiang Wang*, Yi Yuan, Kai Wang, Guojian Li. High-gradient magnetic field-controlled migration of solutes and particles and their effects on solidification microstructure: a review. Chinese Physics B, 2018, 27: 118103.

[27] Lei Li*, Yuantong Bi, Chunyan Ban, Haitao Zhang, Tie Liu, Xiangjie Wang, Claude Esling, Jianzhong Cui. A crystallographic study on the growth of partially faceted MnSn2 phase during solidification process. Crystals, 2018, 8: 380

[28] 王强*, 何明, 朱晓伟, 李显亮, 吴春雷, 董书琳, 刘铁. 电磁场技术在冶金领域应用的数值模拟研究进展. 金属学报, 2018, 54(2): 228-246.

[29] 王强*, 王连钰, 李宏侠, 蒋佳伟, 朱晓伟, 郭占成, 赫冀成. 钢包出钢末期漩涡抑制机理及防漩设计. 金属学报, 2018, 7: 959-968.

[30] Oleksandr Tretiak, Qiang Wang*, Dewei Li, Xiaowei Zhu, Chunlei Wu, Ming He, Hui Xu. Influence of a joint EMSFN and M-EMS on the fluid flow in the mold during the continuous casting process. Acta Metallurgica Sinica (English Letters), 2018, 31: 1345-1355.

[31] Xiaowei Zhu, Dewei Li, Chunlei Wu, Tretiak Oleksandr, Qiang Wang*. Influence of large-scale vortex movement in lower recirculation zone on instable flow field in the mold. ISIJ international, 2018, 9: 1687-1694.

[32] Xiaowei Zhu, Dewei Li, Chunlei Wu, Katsukiyo Marukwa, Qiang Wang*. Structural optimization of electromagnetic swirling flow in nozzle of slab continuous casting. Acta Metallurgica Sinica (English Letters), 2018, 31: 1317-1326.

[33] Hongwei Zhang*, Keiji Nakajima, Mengmeng Su, Hiroyuki Shibata, Peter Hedström, Weixian Wang, Hong Lei, Qiang Wang, Pär Göran Jönsson, Jicheng He. Prediction of influences of Co, Ni, and W elements on carbide precipitation behavior in Fe-C-V-Cr-Mo based high speed steels. Steel Research International, 2018, 89(10): 1800172.

[34] Jin Chen, Zhijian Su*, Donggang Li, Qiang Wang, Jicheng He. Flow behavior in the slab mold under optimized swirling technology in submerged entry nozzle. ISIJ International, 2018, 58(7): 1242-1249.

[35] Hui Zhong, Chen Tian, Yigao Xie, Weibin Cui*, Qiang Wang. Pressure-enhanced magnetocaloric effects in Mn2Sb1-xSnx system with uniaxial magnetocrystalline anisotropy. Journal of Alloys and Compounds, 2018, 769: 250-256.

[36] Weibin Chen, Lina Zhang, Zhijing Ji, Yadan Zheng, Shuang Yuan*, Qiang Wang.  Self-supported Bi2MoO6 nanosheet arrays as advanced integrated electrodes for Li-Ion batteries with super high capacity and long cycle life. Nano, 2018, 13(6): 1850066.

[37] 许智峰, 周向葵, 王凯, 王强*. SPS预烧结制备超细晶梯度硬质合金. 东北大学学报, 2018, 39: 1593-1597.

[38] Nengjun Yu, Minggang Zhu*, Liwei Song, Yikun Fang, Kuikui Song, Qiang Wang, Wei Li*. Coercivity temperature dependence of Sm2Co17-type sintered magnets with different cell and cell boundary microchemistry. Journal of Magnetism and Magnetic Materials, 2018, 452: 272-277.

[39] Liwei Song, Nengjun Yu, Minggang Zhu*, Qiang Wang, Wei Li. The microstructure and magnetization reversal behavior of melt-spun (Nd1-xCex)-Fe-B ribbons. Journal of Rare Earths, 2018, 36(1): 95-98.

[40] Chen Tian, Hui Zhong, Zirun Li, Weibin Cui*, Qiang Wang. Distinct magnetic responses under hydrostatic pressure in Mn-Ga phase with variant crystallographic structure. Intermetallics, 2018, 102: 72-77.

[41] Yang Yang, Yigao Xie, Xiaoqian Zhou, Hui Zhong, Qingzheng Jiang, Shengcan Ma, Zhenchen Zhong, Weibin Cui*, Qiang Wang. Interstitial effects of B and Li on the magnetic phase transition and magnetocaloric effects in Gd2In alloy. AIP Advances, 2018, 8(5): 056406.

[42] Wei Lu, Xiaoli Cui, Xinxin Xu*, Jin Chen, Qiang Wang*. Polyoxometalate compound-derived MoP-Based electrocatalyst with N-Doped mesoporous Carbon as Matrix, a Cathode Material for Zn-H+ Battery. ACS Applied Materials & Interfaces, 2018, 10(49): 42320-42327.

[43] Jin Chen, Hongxing Yang, Xinxin Xu*, Zhijian Su, Yaping Guo, Qiang Wang. Mo2C based electrocatalyst with filter paper derived N-doped mesoporous carbon as matrix for H2 production. Applied Surface Science, 2018, 455: 187-194.

[44] Jin Chen, Hongxing Yang, Xiaoguang Sang*, Zhijian Su, Donggang Li, Qiang Wang. Oxygen vacancy rich tungsten oxide with nitrogen doped mesoporous carbon as matrix for overall water splitting and 4-nitrophenol reductive removal. Solid State Sciences, 2018, 83: 23-30.

[45] Zhenqian Zhang, Xiaoshi Dong, Qiang Wang*, Lingwei Li*. Investigation of the crystal structure, magnetic phase transition and magnetocaloric effect in RE5Ni2In4 (RE = Dy, Ho and Er) compounds. Intermetallics, 2018, 100: 136-141.

[46] Lingwei Li*, Ye Yuan, Yang Qi, Qiang Wang, Shengqiang Zhou. Achievement of a table-like magnetocaloric effect in the dual-phase ErZn2/ErZn composite. Materials Research Letters, 2018, 6: 67-71.

2017年论文

[1] Guojian Li, Jianhao Wang, Jiaojiao Du, Yonghui Ma, Tie Liu, Qiang Wang*: Effects of applying high magnetic field and doping SiO on magnetoresistance and magnetic properties of evaporated Co thin films, Journal of Magnetism and Magnetic Materials, 2017, 441: 448-454.

[2] Guojian Li, Mengmeng Li, Jianhao Wang, Jiaojiao Du, Kai Wang, Qiang Wang*: Effect of high magnetic field on structure and magnetic properties of evaporated crystalline and amorphous Fe-Sm thin films, Journal of Magnetism and Magnetic Materials, 2017, 423: 353-358.

[3] Shiying Liu, Sunjuan Peng, Jun Ma, Guojian Li*, Xuesi Qin, Menghan Li, Qiang Wang: Structure and thermoelectric properties of Al-doped ZnO films prepared by thermal oxidization under high magnetic field, Superlattices and Microstructures, 2017, 104: 282-290.

[4] Yang Gao, Guojian Li*, Jianhao Wang, Zhao Wang, Shiying Liu, Qiang Wang: Effect of oxidation temperature on the ferromagnetism of Co doped ZnO films via thermal oxidation of electrodeposited Co/Zn bilayers, Ceramics International, 2017, 43: 12724-12730.

[5] Yang Gao, Guojian Li*, Zhao Wang, Shan Liu, Qiang Wang: Enhancement of electric and magnetic properties by tuning Co cluster in ZnO films via high magnetic field, Applied Surface Science, 2017, 416: 521-526.

[6] Yang Gao, Guojian Li*, Chun Wu, Xudong Sui, Jiaojiao Du, Qiang Wang: Effects of high magnetic field assisted annealing on structure and optical, electric properties of electrodeposited ZnO films, Superlattices and Microstructures, 2017, 101: 341-348.

[7] Shiying Liu, Guojian Li*, Baohai Jia, Renxiu Tian, Qiang Wang: Effect of high magnetic field on magnetic properties of oxidized ZnO: Co film prepared with different growth models, AIP Advances, 2017, 7: 115122.

[8] Xudong Sui, Guojian Li*, ChenJie Jiang, Yang Gao, Kai Wang, Qiang Wang: Improved surface quality of layered architecture TiAlTaN/Ta coatings for high precision micromachining, Surface & Coatings Technology, 2017, 320: 298-303.

[9] Huimin Wang, Guangzhao Qin, Guojian Li, Qiang Wang*, Ming Hu*: Low thermal conductivity of monolayer ZnO and its anomalous temperature dependence, Physical Chemistry Chemical Physics, 2017, 19(20): 12882.

[10] Chun Wu, Wenli Pei*, Fei Huang, Xiaoyang Wang, Kai Wang, Changshu He, Xiang Zhao, Qiang Wang*: Tuning the shape of FePt nanoparticles by applying high magnetic field in wet-chemical process, Journal of Nanoscience and Nanotechnology, 2017, 17(9): 7003-7007.

[11] Zhilu Liu, Chun Wu, Liang Niu, Ganting Yang, Kai Wang*, Wenli Pei, Qiang Wang: Post-treatment method for the synthesis of monodisperse binary FePt-Fe3O4 nanoparticles, Nanoscale Research Letters, 2017, 12: 540.

[12] Tongbo Zhang, Xiaoqian Zhou, Dedong Yu, Yanqing Fu, Guojian Li, Weibin Cui*, Qiang Wang: Ultrahigh coercivity and core-shell microstructure achieved in oriented Nd-Fe-B thin films diffusion-processed with Dy-based alloys, Applied Physics A, 2017, 123: 111.

[13] Wenli Pei*, Fei Huang, Yang Zhang, Chun Wu, Junhua You, Qiang Wang: Synthesis of coral-like FePt nanoparticles with high grain boundary density, Journal of Nanoscience and Nanotechnology, 2017, 17: 7044-7047.

[14] Hui Zhong, Yanqing Fua, Guojian Li, Tie Liu, Weibin Cui*, Wei Liu, Zhidong Zhang, Qiang Wang*: Enhanced coercivity thermal stability realized in Nd-Fe-B thin films diffusion-processed by Nd-Co alloys, Journal of Magnetism and Magnetic Materials, 2017, 426: 550-553.

[15] Dedong Yu, Xiaoqian Zhou, Tongbo Zhang, Hui Zhong, Yanqing Fu, Weibin Cui*, Qiang Wang: Effects of B4C addition on the microstructure and magnetic properties of FePt-C granular thin films for perpendicular magnetic recording, IEEE Transactions on Magnetics, 2017, 53(8): 1-5.

[16] Yigao Xie, Nana Zhao, Hui Zhong, Tongbo Zhang, Weibin Cui*, Qiang Wang: Manipulating the magnetic properties and interphase coupling in FePt/Pt/Fe multilayer films by Pt spacer layer, Journal of Physics D: Applied Physics, 2017, 50(49): 495001.

[17] Tongbo Zhang, Yang Yang, Yigao Xie, Yanqing Fu, Weibin Cui*, Xinguo Zhao, Wei Liu, Zhidong Zhang, Qiang Wang*: High coercivity and squareness realized in polycrystalline AlN-buffered Cu-doped Sm-Co thin films with perpendicular anisotropy, Journal of Alloys and Compounds, 2017, 729: 533-537.

[18] Mingxu Wu, Tie Liu*, Meng Dong, Jinmei Sun, Shulin Dong, Qiang Wang: Directional solidification of Al-8 wt. %Fe alloy under high magnetic field gradient, Journal of Applied Physics, 2017, 121(6): 064901.

[19] Changsheng Lou, Tie Liu*, Meng Dong, Chun Wu, Jianguo Shao, Qiang Wang: Magnetic anisotropy induced by crystallographic orientation and morphological alignment in directionally-solidified eutectic Mn-Sb alloy, Journal of Magnetism and Magnetic Materials, 2017, 424: 365-370.

[20] Xiaoqian Zhou, Hui Zhong, Dedong Yu, Zhenchao Wen*, Wenbin Cui*, Qiang Wang: Pronounced effects of high-magnetic-field solidification on metamagnetic transition in tetragonal Cu2Sb-type Mn1.8Cu0.2Sb alloy, Journal of Magnetism and Magnetic Materials, 2017, 442(15): 67-71.

[21] Ming He, Xianliang Li, Zhongquan Cao, Shulin Dong, Tie Liu, Qiang Wang*: Effect of heat treatment on the microstructure and properties of Cu0.6Cr0.2Zr alloy induction coil in electromagnetic steel-teeming system, Vacuum, 2017, 146: 130-135.

[22] Nengjun Yu, Minggang Zhu*, Yikun Fang, Liwei Song, Wei Sun, Kuikui Song, Qiang Wang, Wei Li*: The microstructure and magnetic characteristics of Sm(CobalFe0.1Cu0.09Zr0.03)7.24 high temperature permanent magnets, Scripta Materialia, 2017, 132: 44-48.

[23] Keiji Nakajima*, Qiang Wang: Preface to the special issue on “cutting edge of computer simulation of solidification, casting and refining”, High Temperature Materials and Processes, 2017, 36(4): 307-308.

[24] Xiaoqian Zhou, Hui Zhong, Dedong Yu, Wenbin Cui*, Tie Liu, Qiang Wang*: Interstitial effects of B addition on the metamagnetic transition and magnetocaloric effect in tetragonal Cu2Sb-type Mn1.95Cu0.05Sb alloys, Intermetallics, 2017, 90: 50-53.

[25] Ming He, Qiang Wang*, Xin'an Liu, Chunyang Shi, Tie Liu, Jicheng He: Analysis of power supply heating effect during high temperature experiments based on the electromagnetic steel teeming technology, High Temperature Materials and Processes, 2017, 36(4): 441-445.

[26] 周向葵, 王凯*, 许智峰, 王小彬, 王强, 赫冀成: 立方相对超细晶梯度硬质合金微观组织的影响, 稀有金属材料与工程, 2017, 46(12): 3903-3909.

[27] Xiao Lv*, Yongbing Ma, Xiao Wang, Guojian Li, Qiang Wang: A facile chemical reduction method for synthesis of platinum-iron catalysts on carbon fiber papers for methanol oxidation, Journal of the Iranian Chemical Society, 2017, 14: 2387-2395.

[28] Shuang Yuan, Yue Zhao, Weibin Chen, Chun Wu, Xiaoyang Wang, Lina Zhang, Qiang Wang*: Self-assembled 3D hierarchical porous Bi2MoO6 microspheres toward high capacity and ultra-long-life anode material for Li-ion batteries, ACS Applied Materials & Interfaces, 2017, 9(26): 21781-21790.

[29] Shuang Yuan, Yue Zhao, Weibin Chen, Xiaoyang Wang, Lina Zhang, Qiang Wang*: Hierarchical SnO2 nanosheets array as ultralong-life integrated anode for lithium-ion batteries, Nano, 2017, 12(6): 1750077.

[30] Youshun Jia, Qiang Wang*, Yang Qi, Lingwei Li*: Multiple magnetic phase transitions and magnetocaloric effect in double perovskites R2NiMnO6 (R=Dy, Ho, and Er), Journal of Alloys and Compounds, 2017, 726: 1132-1137.

[31] Weibin Cui*, Tongbo Zhang, Xiaoqian Zhou, Dedong Yu, Qiang Wang, Xingguo Zhao, Wei Liu*, Zhidong Zhao: Enhanced coericivity and grain boundary chemistry in diffusion-processed Ce13Fe79B8 ribbons, Journal of Magnetism and Magnetic Materials, 2017, 191: 210-213.

[32] Lingjian Meng, Youshun Jia, Yang Qi, Qiang Wang*, Lingwei Li*: Investigation of the magnetism and magnetocaloric effect in the R2CoAl3 (R=Gd, Tb, Dy, and Ho) compounds, Journal of Alloys and Compounds, 2017, 715: 242-246.

[33] Changsheng Lou*, Lei Zhang, Xin Lu, Xiao Lyu, Guang Jin, Qiang Wang: Effects of high current pulsed electron beam irradiation on the mechanical properties and cutting performance of TiAlN-coated tools, Journal of Materials Engineering and Performance, 2017, 26: 5864-5870.

2016年论文

[1] Guojian Li, Xudong Sui, Chenjie Jiang, Yang Gao, Kai Wang, Qiang Wang*, Di Liu: Low adhesion effect of TaO functional composite coating on the titanium cutting performance of coated cemented carbide insert, Materials and Design, 2016, 110: 105-111.

[2] Guojian Li, Xudong Sui, Xuesi Qin, Yonghui Ma, Kai Wang, Qiang Wang*: Structural transformation between bcc and fcc in Fe-Ni nanoparticle during heating process, Physics Letters A, 2016, 380(42): 3500-3504.

[3] Yonghui Ma, Guojian Li*, Jiaojiao Du, Mengmeng Li, Jianhao Wang, Qiang Wang: Size-dependent structure and magnetic properties of co-evaporated Fe-SiO2 nanoparticle composite film under high magnetic field, AIP Advances, 2016, 6: 055929.

[4] Xuesi Qin, Guojian Li*, Lin Xiao, Guozhen Chen, Kai Wang, Qiang Wang: Effect of Oxidation Condition on Growth of N: ZnO Prepared by Oxidizing Sputtering Zn-N Film, Nanoscale Research Letters, 2016, 11: 274.

[5] Xudong Sui, Guojian Li*, Xuesi Qin, Haidong Yu, Xiangkui Zhou, Kai Wang, Qiang Wang:  Relationship of microstructure, mechanical properties and titanium cutting performance of  TiAlN/TiAlSiN composite coated tool, Ceramics International, 2016, 42: 7524-7532.

[6] Xudong Sui, Guojian Li*, Chenjie Jiang, Haidong Yu, Kai Wang, Qiang Wang: Effect of Ta content on microstructure, hardness and oxidation resistance of TiAlTaN coatings, International Journal of Refractory Metals and Hard Materials, 2016, 58: 152-156.

[7] 隋旭东, 李国建*, 王强, 秦学思, 周向葵, 王凯: 钛合金切削用Ti1-xAlxN涂层的制备及其切削性能研究, 金属学报, 2016, 52: 741-746.

[8] Yonghui Ma, Guojian Li*, Jianhao Wang, Yue Zhao, Kai Wang, Qiang Wang: Effects of thickness and high magnetic field on the microstructure and magnetic properties of FeNi-SiO2 nanoparticle composite films, Materials and Design, 2016, 111: 17-24.

[9] Jun Ma, Sunjuan Peng, Guojian Li*, Qiang Wang: Effect of Al2O3 and Au dopants on the structure and electrical properties of ZnO by oxidizing Zn film, Ceramics International, 2016, 42(16): 19141-19146.

[10] Chun Wu, Kai Wang, Donggang Li*, Changsheng Lou, Yue Zhao, Yang Gao, Qiang Wang*: Tuning microstructure and magnetic properties of electrodeposited CoNiP films by high magnetic field annealing, Journal of Magnetism and Magnetic Materials, 2016, 416: 61-65.

[11] Yue Zhao, Guojian Li, Kai Wang*, Yaqi Shi, Chun Wu, Qiang Wang: Interdiffusion and magnetic properties of Co/Cu/Co trilayers produced by high magnetic field annealing, Materials Chemistry and Physics, 2016, 182: 481-487.

[12] Chun Wu, Wenli Pei, Xiaoyang Wang, Kai Wang, Guojian Li, Qiang Wang*: High magnetic field-induced synthesis of one-dimensional FePt nanomaterials, RSC Advances, 2016, 6: 84684-84688.

[13] Donggang Li, Chun Wu, Qiang Wang*, Jean-Paul Chopart, Jicheng He, Agnieszka Franczak, Alexandra Levesque: Effects of high magnetic field postannealing on microstructure and properties of pulse electrodeposited Co-Ni-P films, Advances in Materials Science and Engineering, 2016, 2016: 1-6.

[14] Donggang Li*, Yang Gao, Qiang Wang*, Guojian Li, Chun Wu, Anne-Lise Daltin, Jean-Paul Chopart: Tailoring the morphology, structure and magnetic properties of electrodeposited CoFe films onto Si (100) by in-situ uniform and gradient high magnetic fields, Journal of the Electrochemical Society, 2016, 163(14): D836-D8.

[15] Pengfei Gao, Tie Liu*, Meng Dong, Yi Yuan, Kai Wang, Qiang Wang: Magnetic domain structure, crystal orientation, and magnetostriction of Tb0.27Dy0.73Fe1.95 solidified in various high magnetic fields, Journal of Magnetism and Magnetic Materials, 2016, 401(1): 755-759.

[16] Pengfei Gao, Tie Liu*, Meng Dong, Yi Yuan, Qiang Wang: Magnetostrictive gradient in Tb0.27Dy0.73Fe1.95 induced by high magnetic field gradient applied during solidification, Functional Materials Letters, 2016, 9(1): 1650003.

[17] Tie Liu, Pengfei Gao, Meng Dong, Yubao Xiao, Qiang Wang*: Effect of cooling rate on magnetostriction gradients of Tb0.27Dy0.73Fe1.95 alloys solidified in high magnetic field gradients, AIP Advances, 2016, 6: 056216.

[18] 高鹏飞, 刘铁*, 柴少伟, 董蒙, 王强: 磁感应强度和冷却速率对TbDyFe合金凝固过程中取向行为的影响, 物理学报, 2016, 65: 038104.

[19] 王长久, 董蒙, 刘铁*, 高鹏飞, 牛书秀, 苑轶: 强磁场对Al-7wt.%Si合金凝固过程中初生α-Al枝晶分布的影响, 材料导报, 2016, 2: 90-94.

[20] Meng Dong, Tie Liu*, Jing Liao, Yubao Xiao, Yi Yuan, Qiang Wang: In situ preparation of symmetrically graded microstructures by solidification and semi-solid forming processes in high magnetic field gradients, Journal of Alloys and Compounds, 2016, 689: 1020-1027.

[21] Hongxia Li, Qiang Wang*, Jiawei Jiang, Hong Lei, Zhancheng Guo, Jicheng He: Analysis of factors affecting free surface vortex formation during steel teeming, ISIJ International, 2016, 56(1): 94-102.

[22] Xiangkui Zhou, Kai Wang*, Zhifeng Xu, Tie Liu, Guojian Li, Qiang Wang, Jicheng He: Effect of powder particle size on gradient formation and grain growth in ultrafine crystalline gradient cemented carbide, International Journal of Refractory Metals and Hard Materials, 2016, 56: 63-68.

[23] Kai Wang, Guojian Li, Chun Wu, Xudong Sui, Qiang Wang*, Jicheng He: Effects of Ag atomic segregation from different planes on the size-dependent melting of Ag-Pd clusters, Journal of Cluster Science, 2016, 27: 55-62.

[24] Xiangkui Zhou, Zhifeng Xu, Kai Wang*, Guojian Li, Tie Liu, Qiang Wang, Jicheng He: One-step sinter-HIP method for preparation of functionally graded cemented carbide with ultrafine grains, Ceramics International, 2016, 42: 5362-5367.

[25] Wenli Pei*, Chun Wu, Yang Zhang, Qiang Wang, Changshu He, Jianjun Wang, Kunhua Zhang, Xiang Zhao: Controllable one dimensional FePt nanomaterials synthesised by chemical method, International Journal of Nanotechnology, 2016, 13(10-12): 801-808.

[26] Shuang Yuan, Yue Zhao, Qiang Wang*: Layered Na2V6O16 nanobelts as promising cathode and symmetric electrode for Na-ion batteries with high capacity, Journal of Alloys and Compounds, 2016, 688: 55-60.

[27] 袁双*, 朱云海, 王赛, 孙涛, 张新波, 王强: 钠离子电池微/纳结构电极材料研究, 电化学, 2016, 22(5): 464-476.

[28] Yingjie Wu, Xingkun Ning, Zhanjie Wang*, Qiang Wang, Zhidong Zhang: Separation of Curie temperature and insulator-metal transition temperature in the La0.7Sr0.3MnO3 polycrystalline films and its effect on low field magnetoresistance, Journal of Alloys and Compounds, 2016, 667: 317-322.

[29] Weibin Cui, Yanqing Fu, Tie Liu, Guojian Li, Qiang Wang*: Origins analysis of coercivity enhancement mechanism in diffusion processed Nd-Fe-B magnets, Journal of Alloys and Compounds, 2016, 686: 101-105.

 

2015年论文

[1] Guojian Li, Qiang Wang*, Xudong Sui, Kai Wang, Chun Wu, Jicheng He: Formation of bcc and fcc during the coalescence of free and supported Fe and Ni clusters, Phys. Chem. Chem. Phys. , 2015, 17, 21729.

[2] Qiang Wang*, Dejun Li, Xingan Liu, Xuebin Wang, Jie Dong, Jicheng He: Effects of steel teeming in new slide gate system with electromagnetic induction, Journal of Iron and Steel Research, International, 2015, 22(1): 30-35.

[3] 曹永泽，王强*，李国建，马永会，隋旭东，赫冀成：强磁场对不同厚度Fe-Ni纳米多晶薄膜的生长过程及磁性能的影响，物理学报，2015，64（6）：067502.

[4] 武英杰，王海玲，宁兴坤，王占杰，王强：溶胶–凝胶法制备Au-BaTiO3纳米复合薄膜及其介电性能，无机材料学报，2015，30（2）：207-213.

[5] Xudong Sui, Guojian Li, Qiang Wang, Huan Qi, Xiangkui Zhou, Kai Wang: Effect of Silicon Content on the Microstructure and Mechanical Properties of TiAlSiN Coatings Prepared by Reactive Magnetron Sputtering, Advances in Materials Science and Applications, 2015, 4 (1): 1-9.

[6] 杜娇娇，李国建，王强，马永会，王慧敏，李萌萌：强磁场下不同晶粒尺寸Fe薄膜生长模式演变及其对磁性能的影响，金属学报，2015，51（7）：799-806.

[7] Wang Kai, Liu Tie, Gao Pengfei, Wang Qiang*, Liu Yin, He Jicheng: Magnetostriction increase of Tb0.3Dy0.7Fe1.95 alloy prepared by solidification in high magnetic fields, Chinese Physical Society, 2015, 32(3): 037502.

[8] Kai Wang, Yue Zhao, Qiang Wang*, Guojian Li, Hongxuan Pang, Jicheng He: Promoting inter-diffusion behavior of Co/Si (100) films by high magnetic field annealing, Vacuum, 2015, 116: 110-114.

[9] Yongze Cao, Qiang Wang*, Guojian Li, Yonghui Ma, Jiaojiao Du, Jicheng He: Effects of different magnetic flux densities on microstructure and magnetic properties of molecular-beam-vapor-deposited nanocrystalline Fe64Ni36 thin films, Front. Mater. Sci., 2015, 9(2): 163-169.

[10] Yongze Cao, Qiang Wang*, Guojian Li, Yonghui Ma, Jiaojiao Du, Jicheng He: Effects of magnetic flux densities on microstructure evolution and magnetic properties of molecular-beam-vapor-deposited nanocrystalline Fe30Ni70 thin films, Thin Solid Films, 2015, 593: 53-61.

[11] Guojian Li, Huimin Wang, Qiang Wang*, Yue Zhao, Zhen Wang, Jiaojiao Du, Yonghui Ma: Structure and properties of Co-doped ZnO films prepared by thermal oxidization under a high magnetic field, Nanoscale Research Letters, 2015, 10: 112.

[12] Pengfei Gao, Qiang Wang*, Tie Liu, Yin Liu, Shuxiu Niu, Jicheng He: Effect of Cooling Rate on Crystal Orientation, and Magnetic and Magnetostrictive Properties of TbFe2-Based Alloy Treated in Semisolid State Under a High Magnetic Field, IEEE Transactions on Magnetics, 2015, 51(5): 2500706.

[13] Yue Zhao, Kai Wang, Qiang Wang, Guojian Li, Changsheng Lou, Hongxuan Pang, Jicheng He: Influence of interdiffusion on the magnetic properties of Co/Si(100) films after high magnetic field annealing, Journal of Magnetism and Magnetic Materials, 2015, 387: 6-12.

[14] Yi Yuan, Jun Mao, Tie Liu, Masahiro Tahashi, Qiang Wang*, Jicheng He: Effects of High Magnetic Fields on Microstructures and Thermoelectric Properties of Zn-Sb Alloy, Metallurgical and Materials Transactions A, 2015, 46A: 2916-2921.

[15] Guojian Li, Huimin Wang, Yue Zhao, Qiang Wang*, Kai Wang, Zhen Wang: Effect of oxidation temperature and high magnetic field on the structure and optical properties of Co-doped ZnO prepared by oxidizing Zn/Co bilayer thin films, Materials Chemistry and Physics, 2015,162: 88-93.

[16] Jiaojiao Du, Guojian Li, Qiang Wang, Yonghui Ma, Yongze Cao, Jicheng He: Microstructural evolution and magnetic properties of nanocrystalline Fe films prepared in a high magnetic field, Vacuum, 2015, 121: 88-95.

[17] Kai Wang, Yue Zhao, Guojian Li, Chun Wu, Qiang Wang*, Jicheng He: Effects of Annealing Temperature on Magnetic Properties of Co Thin Films on Si (100), IEEE Transactions on Magnetics, 2015, 51(11): 2002204.

[18] Guojian Li, Xudong Sui, Chun Wu, Qiang Wang*, Kai Wang, Jicheng He: Structural evolutions of supported Co clusters with different configurations on the Cu(010) substrate, Physics Letters A, 2015,379: 2995-3000.

[19] 王凯，何明，王强，刘铁，赫冀成：电磁冶金新技术的研究现状与发展趋势，鞍钢技术，2015，4：1-4.

[20] 邓燕，王慧敏，裴文利，刘铁，杜宁宇，王强：单辊法制备Fe26.8Co11Ni57.6Si0.81B3.79声磁标签用非晶合金，铸造，2015，64（10）：1017-1021.

[21] 刘兴安，王强*，史纯阳，李宏侠，刘铁，赫冀成：电磁出钢系统中感应加热电源设计及其对系统可靠性的影响，中南大学学报(自然科学版)，2015，46（9）：3188-3194.

[22] Agnieszka Franczak, Alexandra Levesque, Piotr Zabinski, Donggang Li, Maciej Czapkiewicz, Remigiusz Kowalik, Frédéric Bohr, Qiang Wang, Jean-Paul Chopart, Growth and magnetic properties dependence of the Co-Cu/Cu films electrodeposited under high magnetic fields, Materials Chemistry and Physics, 2015, 162: 222-228.

2025年

[1] 刘文朝, 刘铁, 王层, 刘沿东. 一种用于金属液态结构识别的金属熔体电阻率测试方法. 中国发明专利, 申请号: 202510863877.1; 专利申请日: 2025年06月26日. 授权公告日: 2025年08月26日.

[2]王凯, 刁迎春, 马明远, 李国建, 刘铁, 王强. 一种钴-铝金属间化合物CoAl为粘结相的硬质合金及其制备方法. 中国发明专利, 专利号: ZL 2024 1 0445118.9; 专利申请日: 2024年04月15日. 授权公告日: 2025年09月16日.

[3]王强, 黄启君, 马明远, 刁迎春, 王凯, 李国建. 一种WC-Co硬质合金复合后处理强化方法. 中国发明专利, 专利号: ZL 2023 1 1469059.0; 专利申请日: 2023年11月07日. 授权公告日: 2025年09月05日.

[4]王凯, 胡嵩晗, 徐欣欣, 孙炜, 闫灵均, 王强. 一种锰锌铁氧体纳米颗粒、其制备的磁性聚苯乙烯复合微球及应用. 中国发明专利, 专利号: ZL 2023 1 1469059.0; 专利申请日: 2024年01月19日. 授权公告日: 2025年07月11日.

[5] 袁双, 吕福森, 朱焕宇, 王强. 一种基于磁场耦合强化有价金属浸出的废旧锂离子电池湿法回收工艺. 中国发明专利, 申请号: 202510743118.1; 专利申请日: 2025年06月05日. 授权公告日: 2025年09月09日.

[6] 苑轶, 单志成, 李国建, 王强. 一种具有径向双层磁辊的立式涡流分选装置. 中国发明专利, 申请号:202510318817.1; 专利申请日: 2025年03月18日. 授权公告日: 2025年05月13日.

[7] 赵立佳, 马文斌, 毛文奇, 刘静萍, 盛绍龙, 吴松沅, 王强. 一种马氏体基先进高强钢的温成形工艺. 中国发明专利, 申请号: 202511120364.8; 专利申请日: 2025年08月12日. 授权公告日: 2025年10月28日.

[8] 赵立佳, 马文斌, 毛文奇, 刘静萍, 盛绍龙, 吴松沅, 王强. 一种调控马氏体基先进高强钢中新鲜马氏体的热处理工艺. 中国发明专利, 申请号: 202511158328.0; 专利申请日: 2025年08月19日. 授权公告日: 2025年11月25日.

[9] 赵立佳, 马帅, 毛文奇, 马文斌, 盛绍龙, 王强. 一种多级时效工艺的高强马氏体时效不锈钢及其制备方法和应用. 中国发明专利, 申请号: 202510712696.9; 专利申请日: 2025年05月30日. 授权公告日: 2025年09月16日.

[10] 赵立佳, 马帅, 毛文奇, 盛绍龙, 马文斌, 王强. 一种温变形时效工艺的高强马氏体时效不锈钢及其制备方法. 中国发明专利, 申请号: 202510712693.5；专利申请日: 2025年05月30日. 授权公告日: 2025年08月26日.

[11] 赵立佳, 常硕彦, 毛文奇, 罗双宗, 马文斌, 王强. 一种高强高塑亚稳奥氏体不锈钢及其制备方法. 中国发明专利, 专利号: ZL 2025 1 0616068.0; 专利申请日: 2025年05月14日. 授权公告日: 2025年08月12日.

2024年

[1] 赵立佳, 林芷青, 盛绍龙, 马文斌, 郭旭东, 王强. 一种共析成分高碳铬轴承钢及其制备方法. 中国发明专利, 申请号: 202410589493.0; 专利申请日: 2024年05月13日. 授权公告日: 2024年08月27日.

[2] 刘铁, 郭晓玉, 杨赫枝, 王凯, 袁双, 王强. 一种<111>取向稀土-铁基磁致伸缩材料的制备方法. 中国发明专利, 申请号: 202310054251.7; 专利申请日: 2023年2月3日. 授权公告日: 2024年6月18日.

[3] 王强, 刘晓明, 张思远, 石红燕, 刘宁宁, 吴春雷, 李德伟, 刘泽熠, 廉功豪, 张时雨, 赵立佳, 朱晓伟. 一种中间包底部电磁旋流水口设备的固定装置. 中国发明专利, 专利号: ZL 202210753863.0; 专利申请日: 2022年06月28日. 授权公告日: 2024年06月11日.

[4] 王强, 孙延文, 赵立佳, 刘晓明. 一种电磁旋流增强型浸入式水口. 中国发明专利, 专利号: ZL 202311717780.7; 专利申请日: 2023年12月14日. 授权公告日: 2024年06月28日.

[5] 袁双, 王钟, 李成林, 郝一帆, 齐聪, 王强. 外加磁场高析氢性能的多孔催化剂及其制备和使用方法. 中国发明专利, 专利号: ZL 2022 1 0797615.6; 专利申请日: 2022年07月08日. 授权公告日: 2024年02月27日.

2024年以前

1.        袁双, 王钟, 李成林, 齐聪, 王强. 一种磁场诱导合成Ni2P一维纳米链及其制备方法和应用. 中国发明专利，专利号: ZL 202210008154.X; 专利申请日：2022年01月05日. 授权公告日：2023年05月26日.

2.        巩彦龙, 李东刚, 赵灿, 崔鹏鹤, 王强. 一种基于介孔碳基体的双功能催化剂及其磁电沉积制法. 中国发明专利，专利号: ZL 202110136075.2; 专利申请日：2021年02月01日. 授权公告日：2023年04月18日

3.        裴文利, 赵东, 吴纯, 王建军, 王凯, 王强. 液相辅助固相烧结合成fct-FePt纳米粒子的化学方法, 中国发明专利, 专利号: ZL201910549952.1; 专利申请日: 2019-06-24. 授权公告日: 2021-08-24.

4.        周向葵, 王壬儒, 王凯, 王强, 刘建秀, 王艳, 李莹. 一种表面具有高熵合金层的硬质合金及其制备方法. 中国发明专利, 专利号: ZL202010207871.6; 专利申请日: 2020-03-23. 授权公告日: 2021-06-15.

5.        李国建, 常玲, 刘诗莹, 刘晓明, 王强. 一种磁性纳米颗粒复合膜及其制备方法. 中国发明专利, 专利号: ZL201910273164.4; 专利申请日: 2019-04-04. 授权公告日: 2021-05-25.

6.        裴文利, 常玲, 赵东, 王凯, 王强. L10-FePt@PtBi2/Bi核壳结构纳米颗粒及其一步合成方法. 中国发明专利, 申请号: 202110073875.4; 专利申请日: 2021-01-20. 授权公告日: 2021-12-21.

7.        Guojian Li, Xudong Sui, Chenjie Jiang, Kai Wang, Qiang Wang. Composite functional cutter coating for cutting titanium alloy and preparation method therefor, European Patent Office, Patent No. EP3396015B1, 专利申请日: 2016-10-30. 授权公告日: 2021-04-21.

8.        刘铁, 苗玲, 王强, 王凯, 阚金峰, 董蒙. 一种液/固两相体系中颗粒粗化行为的控制方法及装置. 中国发明专利, 专利号: ZL201810069791.1; 专利申请日: 2018年1月24日. 授权公告日: 2020年1月10日.

9.        王强, 何明, 李显亮, 王情伟. 一种基于电磁感应加热出钢技术的组合式水口座砖. 中国发明专利, 专利号: ZL201810283157.8; 专利申请日: 2018-4-2. 授权公告日: 2020-5-26.

10.     李国建, 秦靖宜, 周尧尧, 江陈杰, 王凯, 王强. 一种钛合金切削刀具用TiAlN/CrN多层涂层及其制备方法, 中国发明专利, 专利号: ZL201810077177.X; 专利申请日: 2018-1-26. 授权公告日: 2020-6-9.

11.     李国建, 吕汶璋, 王强, 王凯, 周尧尧, 江陈杰. 一种TiAlTaN/WS自润滑复合涂层及其制备方法. 中国发明专利, 专利号: ZL201811575062.X; 专利申请日: 2018年12月21日. 授权公告日: 2020年6月23日.

12.     王强, 李显亮, 王情伟, 何明, 刘志远, 王重君. 一种管内气雾冷却系统, 中国实用新型专利, 申请号: 201922052066.6; 专利申请日: 2019-11-25. 授权公告日: 2020-7-17.

13.     周向葵, 吴深, 王艳, 樊江磊, 王凯, 王强. 一种表面具有双梯度层结构的超细晶梯度硬质合金及其制备方法. 中国发明专利, 专利号: ZL201811185957.2; 专利申请日: 2018-9-25. 授权公告日: 2020-9-1.

14.     李国建, 兰明迪, 刘诗莹, 刘晓明, 吕汶璋, 王强. 一种脉冲电场辅助的薄膜制备或处理的装置及方法. 中国发明专利, 专利号: ZL201910775352.7; 专利申请日: 2019年8月21日. 授权公告日: 2020年9月4日.

15.     王强, 何明, 李显亮, 刘铁, 董书琳. 一种适用于高温环境的气冷感应线圈, 中国发明专利, 专利号: ZL201710506138.2; 专利申请日: 2017-6-28. 授权公告日: 2020-10-16.

16.     李德伟, 王强, 朱晓伟, 吴春雷, 丸川雄净, 赫冀成. 一种电磁式抑制侵入式水口堵塞的中间包. 中国发明专利, 专利号: ZL201810533173.8; 专利申请日: 2018年5月21日. 授权公告日: 2020年10月23日.

17.     崔伟斌, 陈晓, 杨家鑫, 孙淑丽, 王强. 一种二维稀土钇碳化合物材料及其制备方法, 中国发明专利, 专利号: ZL201910388794.6; 专利申请日: 2019-5-10. 授权公告日: 2020-12-15.

18.     李国建, 江陈杰, 隋旭东, 秦靖宜, 王凯, 王强. 一种钛合金切削用成分梯度TiAlXN涂层刀具及其制备方法. 中国发明专利, 专利号: ZL201710384761.5; 专利申请日: 2017-5-26. 授权公告日: 2019-09-17.

19.     王强, 吴纯, 王晓阳, 王凯, 裴文利, 李国建. 一种利用强磁场液相合成低维纳米材料的装置及方法. 中国发明专利, 专利号: ZL201610107482.X; 专利申请日: 2016-2-26. 授权公告日: 2019-04-26.

20.     王凯, 张海燕, 许智峰, 王强, 周向葵, 刘久振. 一种高硬度表层富WC纳米晶梯度硬质合金及其制备方法. 中国发明专利, 专利号: ZL201710706537.3; 专利申请日: 2017-8-17. 授权公告日：2019-01-04.

21.     吴春雷, 王强, 殷海燕, 朱晓伟, 李德伟, 雷洪. 一种大尺寸钢铁铸造试件的抛光方法. 中国发明专利, 专利号: ZL201810337670.0; 专利申请日: 2018-4-9. 授权公告日: 2019-10-25.

22.     王强, 何明, 李显亮, 刘兴安, 王情伟. 一种用于大电流的气（液）电一体化快速连接装置及方法. 中国发明专利, 专利号: ZL201810313519.3; 专利申请日: 2018-4-10. 授权公告日: 2019-06-28.

23.     苑轶, 王强, 于庆旭, 康健, 高翱, 刘铁. 一种立式涡流分选装置. 中国发明专利, 专利号: ZL201710396781.4; 专利申请日: 2017-5-31. 授权公告日: 2019-11-22.

24.     李东刚, 王楠, 王坤, 王迪, 王强. 一种磁控化学链燃烧反应的装置与方法. 中国发明专利, 专利号: ZL201710601052.8; 专利申请日: 2017-7-21. 授权公告日: 2019-03-12.

25.     李东刚, 李俊超, 陈进, 刘慧, 王强. 旋转磁场回收气体中磁性颗粒的装置与方法. 中国发明专利, 专利号: ZL201710581185.3; 专利申请日: 2017-7-17. 授权公告日: 2019-08-20.

26.     李东刚, 田海东, 崔鹏鹤, 王强. 高透磁性软接触两段式铜合金结晶器及其制备和应用. 中国发明专利, 专利号: ZL201811273062.4; 专利申请日: 2018-10-30. 授权公告日: 2019-9-17.

27.     裴文利, 闻明, 王强, 刘铁, 张昆华, 管伟明, 谭志龙, 张俊敏, 王传军. 一种强磁场热压制备金属靶材的装置及方法. 中国发明专利, 专利号: ZL201610873939.8; 授权公告日: 2019-02-01.

28.     崔伟斌, 杨洋, 谢义高, 钟辉, 周小倩, 王强. 具有反常矫顽力温度系数和磁制冷能力的磁性材料及其制备方法. 中国发明专利, 专利号: ZL201711344245.6; 授权公告日: 2019-12-13.

29.     李东刚, 戎泽波, 刘慧, 王强. 一种楔形过渡区多孔介质燃烧器的火焰面调控方法, 中国发明专利, 专利号: ZL201811043557.8; 专利申请日: 2018-09-07. 授权公告日: 2019-12-10.

30.     李德伟, 王强, 朱晓伟, 吴春雷, 丸川雄净, 赫冀成. 一种连铸用自旋流浸入式水口, 中国发明专利, 专利号: ZL201820833647.6, 专利申请日: 2018-05-31. 授权公告日: 2019-01-04.

31.     李德伟, 王强, 朱晓伟, 吴春雷, 丸川雄净, 赫冀成. 一种连铸用自旋流长水口, 中国发明专利, 专利号: ZL201820834491.3, 专利申请日: 2018-05-31. 授权公告日: 2019-01-04.

32.     王强, 赫冀成, 李德伟, 苏志坚, 丸川雄净. 一种电磁旋流水口连铸方法及装置, 韩国发明专利, 专利号: KR10-2016-7036195; 专利申请日: 2016-12-23. 授权公告日: 2018-12-26.

33.     李德伟, 王强, 赫冀成, 丸川雄净. 一侧开口、磁路闭合的电磁旋流装置及其支撑装置, 中国发明专利, 专利号: ZL201410256672.9; 专利申请日: 2014-6-10. 授权公告日: 2018-5-4.

34.     王凯, 吴纯, 刘治鲁, 牛良, 杨淦婷, 李丹, 王强. 一种单分散的FePt/Fe3O4混合纳米颗粒的制备方法, 中国发明专利, 申请号: ZL201611067331.2; 专利申请日: 2016-11-29. 授权公告日: 2018-6-12.

35.     崔伟斌, 王强, 张同博, 钟辉, 周小倩, 付艳请, 于德东. 一种垂直取向强磁性介质薄膜及其制备方法, 中国发明专利, 专利号: ZL201710266362.9; 专利申请日: 2017-4-21. 授权公告日: 2018-11-27.

36.     刘铁, 高鹏飞, 王强, 董蒙, 赫冀成. 一种原位制备梯度磁致伸缩材料的方法, 中国发明专利, 专利号: ZL201410661445.4; 专利申请日: 2014-11-19. 授权公告日: 2017-1-18.

37.     李东刚, 王强, 万周生, 刘慧. 行进磁场中磁性多孔介质捕集PM2.5-PM10的烟气净化装置和方法, 中国发明专利, 专利号: ZL201511020808.7; 专利申请日: 2015-12-30. 授权公告日: 2017-4-12.

38.     王强, 赫冀成, 李德伟, 苏志坚, 丸川雄净. 一种两瓣式浸入式水口电磁旋流装置及其支撑装置, 中国发明专利, 专利号: ZL201410255519.4; 专利申请日: 2014-6-10. 授权公告日: 2017-10-20.

39.     苏志坚, 赫冀成, 陈进, 丸川雄净, 王强. 一种电磁旋流连铸方法, 中国发明专利, 申请号: ZL201410254236.8; 专利申请日: 2014-6-10. 授权公告日: 2017-9-5.

40.     李国建, 隋旭东, 江陈杰, 王凯, 王强. 一种钛合金切削用复合功能刀具涂层及其制备方法, 中国发明专利, 专利号: ZL201610165058.0; 专利申请日: 2016-3-18. 授权公告日: 2017-12-29.

41.     娄长胜, 芦馨, 高景龙, 金光, 王强. 硬质合金涂层刀具的强流脉冲电子束表面处理方法, 中国发明专利, 专利号: ZL201410004762.9; 专利申请日: 2014-1-6. 授权公告日: 2017-8-25.

42.     陈进, 苏志坚, 王强, 赫冀成. 植物还原法联合磁场制备纳米材料及反应废物利用方法, 中国发明专利, 专利号: ZL201510603570.4. 专利申请日: 2015-9-18. 授权公告日: 2017-11-3.

43.     一种吹气防止钢包出钢过程中漩涡卷渣现象的装置 ...王强; 李宏侠; 王连钰; 蒋佳伟; 赫冀成 2017-12-26, 中国发明专利, ZL201720421914.4.

44.     苏志坚, 殷合, 徐梅, 陈进, 王强, 赫冀成. 一种基于下铸法的旋流式铸造装置, 实用新型专利, 专利号: ZL201621384249.8; 专利申请日: 2016-12-16. 授权公告日: 2017-8-22.

45.     王强, 赫冀成, 李德伟, 苏志坚, 丸川雄净. 电磁旋流水口连续铸造方法及其装置, 日本发明专利, 专利号: 特许第6185666号; 专利申请日: 2014-10-30. 授权公告日: 2017-8-4.（電磁旋回流ノズルの連続鋳造方法と装置, 特願2016-526442）

46.     王强, 苏志坚, 李德伟, 陈进, 王凯, 赫冀成, 丸川雄净. 一种板坯电磁旋流连铸用浸入式水口, 中国发明专利, 专利号: ZL201310145973.X; 专利申请日: 2013-4-25. 授权公告日: 2015-2-25.

47.     王凯, 周向葵, 王强, 许智峰, 刘铁, 赫冀成. 一种表面富钴的超细晶梯度硬质合金及其制备方法, 中国发明专利, 专利号: ZL201410011294.8; 专利申请日: 2014-1-10. 授权公告日: 2015-11-4.

48.     王强*, 李德军, 刘兴安, 柴海山, 丸川雄净, 赫冀成: 一种钢包电磁感应加热出钢装置及其安装方法, 发明专利授权号: ZL201110220532.2, 授权时间: 2013.02.27.

49.     刘铁, 刘印, 王强*, 高鹏飞, 赫冀成: 一种制备磁致伸缩材料的方法, 发明专利授权号: ZL201110331273.0, 授权时间: 2013.04.10.

50.     王强*, 李国建, 曹永泽, 王晓光, 赫冀成: 一种气相沉积薄膜的装置及其使用方法, 发明专利授权号: ZL201210047340.0, 授权时间: 2013.10.16.

51.     吕逍, 王强*, 赫冀成, 约翰伏特, 胡敬平: 一种在导电碳基表面化学镀铂的方法, 发明专利授权号: ZL201010599829.X, 授权时间: 2012.02.15.

52.     王强*, 赵立佳, 尤岳, 杨洪凯, 赫冀成: 一种利用导电流体和磁性流体的自恢复限流断路装置、方法及应用, 发明专利授权号: ZL200910011837.5, 授权时间:2012.03.14.

53.     赫冀成, 刘燕, 佐野正道, 王强, 张廷安, 丸川雄净: 一种铁水精炼过程中气泡细化及其弥散化方法, 发明专利授权号: ZL200810010722.X, 授权时间:2011.01.12.

54.     王强*, 赵立佳, 尤岳, 田永华, 赫冀成: 基于增强摩西效应的磁化率测量方法及装置, 发明专利授权号: ZL200810228790.3, 授权时间:2011.06.15.

55.     张廷安, 刘燕, 赫冀成, 豆志河, 任晓冬, 王强, 赵秋月, 蒋孝丽: 原位机械搅拌炉外脱硫方法及装置, 发明专利授权号: ZL200810011863.2, 授权时间:2011.06.15.

56.     高翱, 王强*, 王长久, 王凯, 赫冀成: 一种提高钢水洁净度的引流方法及其装置, 发明专利授权号: ZL200910011159.2, 授权时间: 2011.11.09.

57.     王强*, 金百刚, 高翱, 王玮, 赫冀成: 软接触电磁连铸用两段式无切缝结晶器套管的制造方法, 发明专利授权号: ZL200810012349.1, 授权时间: 2010.03.10.

58.     王强*, 赫冀成: 一种流体流量和电流开关控制装置, 发明专利授权号: ZL200510046855.9, 授权时间: 2009.07.29.

59.     赫冀成, 丸川雄净, 王强*: 一种带有加热出钢装置的钢包及其出钢方法, 发明专利授权号: ZL200610045875.9, 授权时间:2008.02.27.

60.     王强*, 何长树, 赫冀成, 王春江: 一种利用高强梯度磁场制备梯度复合材料的方法和装置, 发明专利授权号: ZL200610046958.X, 授权时间: 2008.12.24.

61.     王强*, 赫冀成, 王恩刚: 强磁场下制备铝基复合材料的方法及装置, 发明专利授权号: ZL03134180.2, 授权时间: 2006.06.28.

62.     赫冀成, 王强*, 王恩刚, 邓安元: 水缝—分瓣体内水冷式软接触电磁连铸结晶器, 发明专利授权号: ZL200410021566.9, 授权时间: 2006.09.27.

63.     王强*, 赫冀成, 王恩刚: 软接触电磁连铸用无切缝结晶器, 发明专利授权号: ZL02132867.6, 授权时间:2005.01.26.

64.     K. Iwai, S. Asai, Qiang Wang: Apparatus for generating compression waves in conductive liquid, United States Patent and Trademark Office, Patent No.US6579490, 授权时间: 2003.06.17.

65.     岩井一彦, 浅井滋生, 王强: 导电性流体内疏密波发生装置, 日本, 专利号: P3057233, 授权时间: 2000.06.26.

66.     K. Iwai, S. Asai, Qiang Wang: Apparatus for generating compression waves in conductive liquid, European Patent Office, Patent No. EP1091008, 授权时间: 2000.09.26.

专著

1. 赫冀成, 雷洪, 王强. 计算冶金学, 北京: 科学出版社, 2019-11

Jicheng He, Tie Liu, Qiang Wang. Computational metallurgy, Beijing: Science Publishing, 2019-11.

2. 王强, 赫冀成, 刘铁. 电磁冶金新技术, 北京: 科学出版社, 2015-3.

Qiang Wang, Jicheng He, Tie Liu. New electromagnetic metallurgical technologies, Beijing: Science Publishing, 2015-3.

3. 王强, 赫冀成. 强磁场材料科学, 北京: 科学出版社, 2014-2.

Qiang Wang, Jicheng He, Tie Liu. Materials science under high magnetic field, Beijing: Science Publishing, 2015-2.

4. 刘铁，王强等. 电磁冶金原理及应用技术, 北京：冶金工业出版社，2024-3.

Tie Liu, Qiang Wang et al. Principles and Application Technologies of Electromagnetic Metallurgy, Beijing: Metallurgical Industry Press, 2024-3.

参编外文专著

4. Guojian Li, Qiang Wang, Kai Wang. Atomic behavior and structural evolution of alloy nanoparticles during thermodynamic processes (Chapter 9), In: Vinod K. Tewary, Yong Zhang. Modeling, characterization, and production of nanomaterials: Electronics, photonics and energy applications, UK: Cambridge: Woodhead Publishing, 2015: 233-250.

李国建, 王强, 王凯. 热力学过程中合金纳米粒子的原子行为和结构演化(第9章), 参编专著: Vinod K. Tewary, Yong Zhang. 纳米材料的建模、表征和制备：电子学、光子学和能源应用, 英国剑桥: 伍德海德出版社, 2015: 233-250.

5. Donggang Li, Qiang Wang, Agnieszka Franczak, Alexandra Levesque, Jean-Paul Chopart. The coupled magnetic field effects on the microstructure evolution and magnetic properties of as-deposited and post-annealed nano-scaled Co-based films-Part I and Part II (Chapter 12 and Chapter 13), In: Mahmood Aliofkhazraei. Electroplating of Nanostructures, US: InTech Open Access Publisher, 2015: 259-308.

李东刚, 王强, Agnieszka Franczak, Alexandra Levesque, Jean-Paul Chopart. 磁场耦合效应对沉积态和退火态Co基纳米薄膜微观结构演变和磁性能的影响-第一部分和第二部分 (第12和13章), 参编专著: Mahmood Aliofkhazraei. 纳米结构的电沉积, 美国: InTech开源出版商, 2015: 259-308.

6. Tie Liu, Qiang Wang. Functionally gradient intermetallic composites (chapter14), In: Rahul Mitra. Intermetallic matrix composites properties and applications, UK: Cambridge: Woodhead Publishing, 2017-7: 409-424.

刘铁, 王强. 梯度功能金属间化合物复合材料(第14章), 参编专著: Rahul Mitra. 金属间化合物复合材料的性能及应用, 英国剑桥: 伍德海德出版社, 2017-7: 409-424.

教材

7. 王强, 李国建, 苑轶. 能量转换材料与技术, 北京: 科学出版社, 2018-10.

Qiang Wang, Guojian Li, Yi Yuan. Energy conversion materials and technology, Beijing: Science Publishing, 2018-10.

2025年

[1] 欧美凤, 张芷嘉. 基于微纳结构设计的红外辐射抑制型电磁屏蔽材料. 第八届全国大学生冶金科技竞赛国家级特等奖. 2025. 指导老师: 王强, 刘晓明.

[2] 欧美凤, 翟浩迪, 张芷嘉, 李柔漪, 王崇. 极波智控—基于TTIZ理论的5G电磁波调控多功能材料. 第十三届中国TRIZ杯大学生创新方法大赛国家级特等奖银奖. 2025. 指导老师: 刘晓明.

[3] 张时雨, 王敏, 吕智锋, 周峰, 车易轩, 钟昕彤, 王雅慧, 孙大鹏, 王宇恒, 李兴佳, 王儒超, 沈奇, 夏天洋, 廉功豪, 田楠. 激锋禁草—青畴光耘的守望者. “建行杯”辽宁省大学生创新大赛(2025)省级金奖. 2025. 指导老师: 王强, 陆志国, 王之琼, 刘杨, 信俊昌, 刘兴安, 王振, 李爽.

[4] 任志宇, 徐采薇, 林路路, 高海翔, 车易轩, 于海容, 刘紫讯, 赵桐, 张朕, 韩思宇, 黄明浩, 马旭东, 魏晓蓼, 牛思佳 柳一康. 蓝海新生-高效率低成本全天候的零能耗海水淡化系统创领者. “建行杯”辽宁省大学生创新大赛(2025)省级金奖. 2025. 指导老师: 刘晓明, 王晨充 王强, 黄达.

[5] 任志宇 第四届全国超材料大会研究生学术新人奖 2025. 指导老师：刘晓明

[6] 高海翔, 刘紫讯, 冷信林, 袁东俊, 王智鹏. 东北大学（2024）“国家级大学生创新创业训练计划”项目-太阳能界面蒸发Janus折纸超材料设计与海水淡化应用研究，国家级优秀结题. 2025. 指导老师: 刘晓明, 王强.

[7] 陈稳诚, 林路路, 高海翔, 杨慧欣, 李魏志, 刘世成, 朱鹏麟. 高处“光”胜“寒”—基于仿生光热超疏水材料的风机叶片全天候自除冰系统. “招行杯”第十八届全国大学生节能减排社会实践与科技竞赛国家级一等奖. 2025. 指导老师: 刘晓明, 王强.

[8] 陈稳诚, 林路路, 高海翔, 朱鹏麟. “光”起”风”电雪—基于仿生光热超疏水材料的风机叶片全天候自除冰系统. 第八届全国大学生冶金科技竞赛国家级三等奖. 2025. 指导老师: 刘晓明, 王强.

[9] 廖倍, 李佳琦, 鲁济源, 李睿柯, 王克诚. 磁旋连铸--多级耦合电磁驱动技术对铸坯凝固组织的优化. 第八届全国大学生冶金科技竞赛校级三等奖. 2025. 指导老师: 刘晓明, 王强.

[10] 高海翔, 陈稳诚, 徐采薇, 车易轩, 于海容. 蓝海新生-高效低耗的光电协同海水淡化系统创领者. 第十五届全国大学生电子商务“创新、创意及创业”挑战赛省级一等奖. 2025. 指导老师: 刘晓明, 王强.

[11] 高海翔, 刘紫讯, 冷信林, 袁东俊, 王智鹏. 太阳能界面蒸发Janus折纸超材料设计与海水淡化应用研究. 第十二届辽宁省大学生创新年会省级一等奖. 2025. 指导老师: 刘晓明, 王强.

[12] 高海翔, 刘紫讯, 冷信林, 袁东俊, 王智鹏. 太阳能界面蒸发Janus折纸超材料设计与海水淡化应用研究. 第十二届辽宁省大学生创新年会我最喜爱的展示项目. 2025. 指导老师: 刘晓明, 王强.

[13] 高海翔, 刘紫讯, 冷信林, 袁东俊, 王智鹏. 太阳能界面蒸发Janus折纸超材料设计与海水淡化应用研究. 第十二届辽宁省大学生创新年会最佳创意项目. 2025. 指导老师: 刘晓明, 王强.

[14] 陈稳诚, 高海翔, 刘紫讯, 于海容, 陈艺文, 冷信林, 袁东俊, 陈婧, 刘才溢, 陈元. 蓝海新生-高效低耗的光电协同海水淡化系统创领者. 第三届“创青春”中国青年碳中和创新大赛东北赛区区域赛金奖. 2025. 指导老师: 刘晓明, 王强.

[15] 陈稳诚, 高海翔, 刘紫讯, 于海容, 陈艺文, 冷信林, 袁东俊, 陈婧, 刘才溢, 陈元. 蓝海新生-高效低耗的光电协同海水淡化系统创领者. 第三届“创青春”中国青年碳中和创新大赛国家级铜奖. 2025. 指导老师: 刘晓明, 王强.

[16] 林路路, 陈稳诚, 李魏志, 高海翔. “智光驱风冰”一基于仿生光热超疏水材料的风机全天候自除冰系统. 第十六届过程装备实践与创新赛东北区域赛区域赛二等奖. 2025. 指导老师: 刘晓明, 王强.

[17] 陈稳诚, 林路路, 刘世成, 高海翔, 杨慧欣, 李魏志, 毕东洋. 光海新生—Janus折纸超材料赋能的三源联供自持型零碳海水淡化系统. 第十三届全国大学生光电设计竞赛东北区赛一等奖. 2025. 指导老师: 刘晓明, 王强.

[18] 王哲, 曹楠, 宋子衡, 罗双宗, 刁迎春. 一种高效低成本的光伏-多元复合薄膜集成发电系统. 创新与创意大赛东北大学校赛中获得三等奖. 东北大学创新创业学院. 2025.

[19] 王哲, 曹楠, 罗双宗, 吕福森, 马文斌. 一种高效低成本的光伏-热点薄膜复合发电器件.第十二届中国研究生能源装备创新设计大赛东北大学校赛三等奖. 东北大学创新创业学院. 2025.

[20] 张保泽, 李斯诺, 徐释友. 大功率换能器用稀土超磁致伸缩材料的强磁场调控工艺. 全国大学生冶金科技竞赛一等奖. 2025. 指导老师: 刘铁, 王强.

[21] 田晨. 中国科协青年人才托举工程. 国家级. 2025年4月.

[22] 田晨. 辽宁省优秀博士学位论文. 省部级. 2025年6月16日.

[23] 刘伯远, 李唯一, 王文博. 全国大学生冶金科技竞赛一等奖. 2025. 指导教师: 牟望重.

[24] 王钟, 付丹妮, 郝谭卓, 陈蕊, 王福庆. “氢定未来”—一种高性能、低成本双功能电催化剂的开发和应用. 第四届中国研究生“双碳”创新与创意大赛全国二等奖. 2025. 指导老师: 袁双.

[25] 王钟, 付丹妮, 陈蕊, 吴问昌, 王福庆, 刘宇楠, 盛绍龙, 罗双宗, 王哲, 吕福森, 杨晓, Abdelhamid Ait Mhid, Rahman Faiz Suwandana, Sanmugavel Sundaramahalingam, Anna Xiu Obradors Castillo. “奇思材质，熵之灵药”一种高性能低成本的全解水双功能电催化剂. “建行杯”辽宁省大学生创新大赛（2025)铜奖. 2025. 指导老师: 袁双, 王强, 牟望重.

[26] 苑轶 暴鹏超 刘文静 赵凯 王一晨. 东北大学(2024)“国家级大学生创新创业训练计划”项目结题证书. 2025.

[27] 孙博煜 赵昕芸 王子瑞 李毅腾 王崇. 2025中美青年创客大赛沈阳赛区决赛（主赛道）三等奖. 2025. 指导老师: 苑轶

[26] 原永博, 国家奖学金. 2025. 指导教师：牟望重, 刘铁.

[27] 单志成, 国家奖学金. 2025. 指导老师：苑轶.

2024年

[1] 王强, 吕铭, 乐启炽, 王向杰, 陈洁, 刘宏亮, 金百刚, 孔祥宏, 陈长科, 刘中秋. 大型金属坯料制备电磁调控关键共性技术开发和应用. 国家科学技术进步二等奖. 中华人民共和国国务院, 中国. 2024.

[2] 王强, 刘晓明, 吕铭, 袁本明, 齐建军, 金百刚, 黄健, 王中学, 张佩, 郭旭东, 刘勇, 宋平, 李岩, 李四军, 曲锡辉. 电磁旋流及其多级耦合电磁驱动技术研发与应用. 冶金科学技术一等奖. 中国钢铁工业协会, 中国金属学会, 中国. 2024.

[3] 王强, 崔伟斌, 刘铁, 袁双, 苑轶, 种禾, 郭宏运, 杨家鑫, 姚桂全. 面向能量存储与转化的稀土基材料研究. 稀土科学技术奖二等奖. 中国稀土学会, 中国稀土行业学会, 中国. 2024. 

[4] 刘铁, In honor of your oral presentation, entitled "The Wettability of Molten Al and Sn on Solid Substrates under High Magnetic Fields", presented at the 75th World Foundry Congress, held in Deyang, China, from October 25 to 30, 2024.

[5] 刘铁, 吴宇轩, 唐子渊, 张保泽, 卢旺悦. 强磁场下AI-Si共晶合金定向凝固组织演变及溶质迁移行为研究. 第十一届辽宁省大学生创新年会二等奖. 2024.

[6] 刘铁, 面向能量存储与转化的稀土基材料研究. 稀土科学技术二等奖. 2024.

[7] 刘铁, 吴宇轩, 唐子渊, 张保泽, 卢旺悦. 东北大学(2023)“国家级大学生创新创业训练计划”项目结题证书. 2024.

[8] 刘铁, 强磁场诱导Tb-Dy-Fe合金定向凝固过程中的<111>取向生长经过中国材料大会2024暨第二届世界材料大会学术委员会评审推荐为“高水平论文”. 2024.

[9] 原永博,  Ti/Al 脱氧合金化处理低碳钢中夹杂物聚集行为与连铸过程水口堵塞研究在“2024（第三届）全国绿色低碳冶金技术与固废治理方案高层论坛”中荣获二等奖. 2024.指导老师: 牟望重, 刘铁, 田晨.

[10] 张保泽, 毕业设计(论文)《强磁场定向凝固制备Tb-Dy-Fe-(Co)合金磁致伸缩-温度性能研究》, 被评为2024届东北大学本科生优秀毕业设计(论文). 2024. 指导老师: 刘铁.

[11] 朱欣颖, 毕业设计(论文)《强磁场定向凝固对Terfenol-D合金准同型相界与磁性能的影响》, 被评为2024届东北大学本科生优秀毕业设计(论文). 2024. 指导老师: 刘铁.

[12] 桑浩源, 富锂锰基正极材料的固相法合成及性能研究, 第四届全国能源动力类专业优秀本科毕业论文(设计). 2024. 指导教师：袁双.

[13] 王钟, 罗双宗, 王哲, 吕福森, 陈蕊, 石劢. 荣获第三届中国研究生“双碳”创新与创意大赛三等奖. 2024. 指导老师: 袁双.

[14] 王钟, 罗双宗, 王哲, 吕福森, 谭新佳, 石劢, 陈蕊. 《“奇思材质, 熵之灵药”一种高性能低成本的全解水双功能电催化剂》, 2024年东北大学研究生“双碳”创新与创意大赛校赛二等奖. 2024. 指导老师: 袁双.

[15] 刘海波, 盛绍龙, 吴松沅, 刘先存, 王淞, 林芷青.《“整局相融, 形式相承”-面向“双碳”战略优异成形匹配的先进高强钢研发设计》, 2024年东北大学研究生“双碳”创新与创意大赛校赛三等奖. 2024. 指导老师: 赵立佳, 毛文奇.

[16] 刘海波, 吴松沅, 马文斌, 王淞, 刘先存. 《“整局相融, 形式相承”--面向“中国制造2025”战略优异成形匹配的先进高强钢研发设计》, 2024年东北大学研究生能源装备创新设计大赛校赛三等奖. 2024. 指导老师: 赵立佳, 毛文奇.

[17] 高海翔, 刘才溢, 陈元, 王宏伟, 刘紫讯, 陈艺文, 赵桐. 第十七届全国大学生节能减排社会实践与科技竞赛国家级一等奖. 2024. 指导老师: 刘晓明, 王强.

[18] 高海翔, 刘才溢, 陈元, 袁东俊. 第七届全国大学生冶金科技竞赛国家级一等奖. 2024. 指导老师: 刘晓明, 王强.

[19] 高海翔, 曹歌蒙, 石佳玉, 冷信林, 肖芃. 第十二届中国TRIZ杯大学生创新方法大赛国家级一等奖. 2024. 指导老师: 刘晓明.

[20] 任志宇, 刘才溢, 高海翔, 代林峰, 耿昊, 李留坤, 谢雨航, 俞馨怡, 宿家浩, 于海容, 王钟, 刘家岐, 石劢, 徐采薇, 车易轩. 第十四届“挑战杯”中国大学生创业计划竞赛辽宁省金奖. 2024. 指导老师: 刘晓明, 王强, 袁双.

[21] 高海翔, 代林峰, 刘才溢, 俞馨怡, 耿昊, 于海容, 王擎宇, 李留坤, 宿家浩, 王钟, 刘家岐, 石劢, 胡书毓, 谢雨航. “建行杯”辽宁省大学生创新大赛（2024）高教主赛道辽宁省银奖. 2024. 指导老师: 刘晓明, 王强, 袁双.

[22] 高海翔, 任志宇, 代林峰, 刘才溢, 俞馨怡, 耿昊, 于海容, 李留坤, 宿家浩, 王钟, 刘家岐, 石劢, 胡书毓, 谢雨航, 吴雨鑫. “建行杯”辽宁省大学生创新大赛（2024）产业赛道辽宁省银奖. 2024. 指导老师: 刘晓明, 王强, 袁双.

[23] 高海翔, 刘才溢, 陈元, 王奕文. 第十五届”卓然-笃舜-宏图杯”过程装备实践与创新赛全国赛国家级二等奖. 2024. 指导老师: 刘晓明, 王强.

[24] 高海翔, 刘才溢, 陈元, 王奕文. 第十五届“卓然-笃舜-宏图杯”过程装备实践与创新赛沈阳区域赛一等奖. 2024. 指导老师: 刘晓明, 王强.

[25] 高海翔, 陈艺文, 胡书毓, 刘才溢, 陈元. 2024中美青年创客大赛全球总决赛（主赛道）国家级优秀奖. 2024. 指导老师: 刘晓明.

[26] 高海翔, 陈艺文, 胡书毓, 刘才溢, 陈元. 2024中美青年创客大赛沈阳赛区决赛（主赛道）一等奖. 2024. 指导老师: 刘晓明.

[27] 王儒超, 张时雨, 沈奇, 夏天洋, 刘笑源, 刘美妤, 李嘉琦, 王禹, 路成浩, 肖银河, 李超, 孙大鹏, 李御霖, 张树地. 激峰“禁”草—全球智能激光绿色除草技术领先者. “建行杯”辽宁省大学生创新大赛金奖. 2024. 指导老师: 王强, 陆志国, 王之琼, 信俊昌, 刘兴安.

2024年以前

1. 中国技术市场协会金桥奖个人一等奖；奖励年度：2020。王强

2. 获奖项目名称：冶金与材料过程的电磁场控制基础研究；奖励名称：高等学校科学研究优秀成果奖（科学技术）自然科学一等奖；授奖单位及国别：教育部，中国；奖励年度：2020。王强, 刘铁, 李国建, 王凯, 袁双

3. 获奖项目名称：低维材料纳米结构的强磁场调控及其性能优化；奖励名称：辽宁省科学技术奖（自然科学奖）二等奖；授奖单位及国别：辽宁省政府，中国；奖励年度：2019。王强,李国建,王凯,刘铁,袁双

4. 获奖项目名称：电磁冶金新技术基础研究；奖励名称：辽宁省科学技术奖（自然科学奖）三等奖；授奖单位及国别：辽宁省科学技术奖励委员会，中国；奖励年度：2015。王强，赫冀成，刘铁，李国建，苏志坚

5. 获奖项目名称：强磁场材料科学的基础研究；奖励名称：辽宁省科学技术奖（自然科学奖）二等奖；授奖单位及国别：辽宁省科学技术奖励委员会，中国；奖励年度：2010。赫冀成，王强，王恩刚，刘铁，王凯

6. 获奖项目名称：一种流体流量和电流开关控制装置；奖励名称：中国专利年会校园发明与创新金奖；授奖单位及国别：国家知识产权局，中国；奖励年度：2011。

7. 获奖项目名称：一种带有加热出钢装置的钢包及其出钢方法；奖励名称：中国专利年会校园发明与创新银奖；授奖单位及国别：国家知识产权局，中国；奖励年度：2011。

8. 获奖项目名称：Intelligent circuit breaker with conductive and magnetic fluids；奖励名称：发明者协会国际联合会科学金奖；授奖单位及国别：International Federation of Inventors' Associations (IFIA)，瑞士；奖励年度：2012。

9. 获奖项目名称：Disjoncteur de circuit intelligent avec liquids magnétiques de conduction；奖励名称：第40届日内瓦国际发明展金奖；授奖单位及国别：Salon International Des Inventions Genève Committee，瑞士；奖励年度：2012。

10. 获奖项目名称：Méthode pour couler lacier dans une poche de coulée avec chaleur à induction électromagnétique；奖励名称：第40届日内瓦国际发明展银奖；授奖单位及国别：Salon International Des Inventions Genève Committee，瑞士；奖励年度：2012。

11. 获奖项目名称：一种带有加热出钢装置的钢包及其出钢方法，奖励名称：中国代表团奖，授奖单位及国别：Salon International Des Inventions Genève Committee，瑞士；奖励年度：2012；排序：1。

12. 获奖项目名称：Generation of compression waves by simultaneously imposing a static magnetic field and an alternating current and its use for refinement of solidified structure；奖励名称：2001年日本金属学会年度论文奖；授奖单位及国别：日本金属学会，日本；奖励年度：2002。

13. 获奖项目名称：Non-contact generation of intense compression waves in a molten metal by using a high magnetic field；奖励名称：2000年日本金属学会年度论文奖；授奖单位及国别：日本金属学会，日本；奖励年度：2001。