导师队伍

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张宏伟

  • 电话: 18624092397
  • 邮箱: hongweizhang@imr.ac.cn
  • 所属部门: 前沿材料研究部

研究方向

非晶合金、高熵合金及其复合材料、功能多主元合金、高熵合金增材制造、高熵合金焊接

代表论著

主要从事非晶、高熵合金及其复合材料设计与应用研究。担任国家重大专项首席,主持和参加国家部委专项、国家重点研发计划、国家自然科学基金等科研项目30余项,发表SCI论文100余篇,申请专利142项,国际PCT专利6项,授权专利93项。获军队科技进步一等奖、辽宁省技术发明一等奖、黑龙江省自然科学一等奖、中国产学研合作创新成果一等奖和辽宁省自然科学二等奖各1项。担任中国非晶节能产业联盟副理事长、中国有色金属学会金属基复合材料学会委员、中国材料研究学会增材制造分会委员、辽宁省机械工程学会增材制造分会副理事长、辽宁省腐蚀与防护学会理事和金属学报青年编委等职务。长期担任Progress in Materials Science, Journal of Materials Science & Technology, Materials Science and Engineering: A, Journal of Alloys and Compounds, Journal of Materials Research and Technology, Materials Characterization等国际知名SCI期刊的审稿人。


近三年代表论著:

1.Y. T. Yang, J. Y. Pang*, Z. Q. Zhang, Y. T. Wang, Y. Ji, Z. W. Zhu, L. Zhang, A. M. Wang, H. F. Zhang, H. W. Zhang*, Strength-ductility synergy and superior strain hardening ability of Ni38Co25Fe13Cr10Al7Ti7 multi principal element alloy through heterogeneous L12 structure modulation, Journal of Alloys and Compounds. 2024, 173916

2.Y. T. Wang, J. Y. Pang*, H. W. Zhang*, Y. T. Yang, Z. Q. Zhang, Y. Ji, Z. W. Zhu, L. Zhang, A. M. Wang, G. F. Ma, H. F. Zhang, Overcoming intermediate-temperature brittleness via regulating trimodal γʹ structure in a novel multi-principal element alloy, Materials Science and Engineering A, 2024, 892, 146099

3.Z. Q. Xing, J. Y. Pang*, H. W. Zhang*, Y. Ji, Z. W. Zhu, L. Zhang, H. Li, A. M. Wang, H. F. Zhang, Effect of aging temperature on microstructure and mechanical properties of Fe–Ni–Cr–Al high entropy alloy, Intermetallics, 2024, 165, 108159

4.G. Q. Tang, X. Shao, J. Y. Pang*, Y. Ji, A. M. Wang, H. F. Zhang, J. G. Li, H. F.     Zhang, H. W. Zhang*, The Microstructures Mechanical Properties, and Deformation Mechanism of B2-Hardened NbTiAlZr-Based Refractory High-Entropy Alloys, Materials, 2024, 16(24), 7592

5.W. Li, W. Wang, M. C. Niu, K. Yang, J. H. Luan, H. W. Zhang*, Z. B. Jiao, Unraveling the two-stage precipitation mechanism in an fcc/L21 hierarchical structured high entropy alloy: Experiments and analytical modeling, Acta Materialia, 2024, 262, 119426

6.J. Y. Pang, H. W. Zhang*, Y. Ji, Z. W. Zhu, L. Zhang, H. Li, A. M. Wang, H. F. Zhang, High-temperature structural and mechanical stability of refractory high-entropy alloy Nb40Ti25Al15V10Ta5Hf3W2, Materials Characterization, 2023, 205, 113321

7.J. Y. Pang, B. X. Wei, H. W. Zhang*, Y. Ji, Z. W. Zhu, L. Zhang, H. M. Fu, H. Li, A. M. Wang, H. F. Zhang, Improvement in corrosion resistance of biocompatible Ti1.5Al0.3ZrNb refractory high entropy alloy in simulated body fluid by nanosecond laser shock processing, Corrosion Science, 2023, 224, 111484.

8.Y. T. Yang, J.Y. Pang, H.W. Zhang*, A. M Wang, Z.W. Zhu, H. Li*, G.Q. Tang, L. Zhang, H. F. Zhang, The Short-Term Splitting and Long-Term Stability of Cuboidal Nano-Particles in Ni44Co22Cr22Al6Nb6 Multi-Principal Element Alloy, Acta Metallurgica Sinica (English Letters), 2023,36,999

9.Z. Q. Xing, J. Y. Pang*, H. W. Zhang*, Y. Ji, Z. W. Zhu, A. M. Wang, L. Zhang, H. Li, H. M. Fu, H. F. Zhang, Optimizing the microstructure and mechanical performance of Fe-Ni-Cr- Al high entropy alloys via Ti addition, Journal of Alloys and Compounds. 2023, 943, 169149

J.Y. Pang, H.W. Zhang*, L. Zhang, Z.W. Zhu, H.M. Fu, H. Li, A.M. Wang, Z.K. Li, H.F. Zhang. A ductile Nb40Ti25Al15V10Ta5Hf3W2 refractory high entropy alloy with high, Materials Science and Engineering: A, 2022, 831, 142290