个人简介
为北京市优秀人才支持计划获得者。主持国家自然科学基金、国防973计划专题项目、总装预研、国防科工基础、总装预研基金、国防科技重点实验室基金等科研项目20余项。已发表学术论文100余篇,其中SCI收录50余篇,SCI论文他引超过千次,受国际材料领域顶级综述期刊“international materials reviews”邀请撰写SPS基础理论与应用技术领域的综述文章。主编国家级规划教材1部,撰写国防科技图书出版基金资助专著2部,出版有限元著作6部,著作总印数达10万册。作为第1发明人申请国家、国防发明专利26件,已授权14件。获兵工高校优秀教材一等奖1项(排名第1),获国防科技发明二等奖1项,获Elsevier出版社以及美陶颁发的Top Reviewer(年度最佳审稿人)奖各1项。
部分学术论文 共12篇
[1] Q. Song; S.P. Yin; Z.H. Zhang; Z.Y. Hu. Microstructure and mechanical properties of super-hard B4C ceramic fabricated by spark plasma sintering with (Ti3SiC2+Si) as sintering aid. Ceramics International. 2019, 45: 8790-8797.
[2] Z.Y. Hu; Z.H. Zhang; X.W. Cheng. Microstructure evolution and tensile properties of Ti-(AlxTiy) core-shell structured particles reinforced aluminum matrix composites after hot-rolling/heat-treatment, Materials Science and Engineering: A, 737 (2018) 90-93.
[3] S.P. Yin; Z.H. Zhang; X.W. Cheng. Spark plasma sintering of B4C-TiB2-SiC composite ceramics using B4C, Ti3SiC2 and Si as starting materials. Ceramics International. 2018, 44: 21626-21632.
[4] Q. Song, Z.H. Zhang*, Z.Y. Hu, X.W. Cheng. Fully dense B4C ceramics fabricated by spark plasma sintering at relatively low temperature. Materials Research Express. 2018, 5: 105201.
[5] Z.Y. Hu, Z.H. Zhang*, X.W. Cheng. A rapid route for synthesizing Ti-(AlxTiy/UFG Al) core-multishell structured particles reinforced Al matrix composite with promising mechanical properties. Materials Science & Engineering A. 2018, 721: 61-64.
[6] H. Wang, Z.H. Zhang*, Z.Y. Hu. Improvement of interfacial interaction and mechanical properties in copper matrix composites reinforced with copper coated carbon nanotubes. Materials Science & Engineering A. 2018, 715: 163-173.
[7] H. Wang, Z.H. Zhang*, Z.Y. Hu. Interface structure and properties of CNTs/Cu composites fabricated by electroless deposition and spark plasma sintering. Materials Research Express, 2018, 5: 15602.
[8] Z.Y. Hu, X.W. Cheng, H.M. Zhang, Z.H. Zhang*, F.C.Wang. Investigation on the microstructure, room and high temperature mechanical behaviors and strengthening mechanisms of the (TiB+TiC)/TC4 composites. Journal of Alloys and Compounds, 2017, 726: 240-253.
[9] H. Wang, Z.H. Zhang*, H.M. Zhang, Z.Y. Hu. Novel synthesizing and characterization of copper matrix composites reinforced with carbon nanotubes. Materials Science & Engineering A, 2017, 696: 80-89.
[10] Z.Y. Hu, X.W. Cheng, Z.H. Zhang*, H. Wang. The influence of defect structures on the mechanical properties of Ti-6Al-4V alloys deformed by high-pressure torsion at ambient temperature. Materials Science and Engineering: A. 2017, 684: 1-13.
[11] H. Wang, X.W. Cheng, Z.H. Zhang*, Z.Y. Hu, S.L. Li. Microstructures and mechanical properties of bulk nanocrystalline silver fabricated by spark plasma sintering, Journal of Materials Research. 2016, 31(15): 2223-2232.
[12] H. Wang, Z.H. Zhang*, Z.Y. Hu, F.C. Wang. Synergistic strengthening effect of nanocrystalline copper reinforced with carbon nanotubes, Scientific Reports. 2016, 6: 26258.
参编书著 共9册
[1] 张朝晖 著 《放电等离子烧结技术及其在钛基复合材料制备中的应用》 国防工业出版社 2018
[2] 张朝晖 主编 《ANSYS16.1结构分析工程应用及实例解析.第4版》 机械工业出版社 2016
[3] 张朝晖 主编 《ANSYS12.0热分析工程应用》 中国铁道出版社 2010
[4] 张朝晖 编著 《ANSYS有限元理论与工程应用.2版》 电子工业出版社 2008
[5] 王富耻 张朝晖 著 《静液挤压技术》 国防工业出版社 2008
[6] 张朝晖 主编 《计算机在材料科学与工程中的应用》 2008 中南大学出版社
[7] 张朝晖 蔡玉强 编著 《Pro/ENGINEER野火2版精彩实例教程》 北京大学出版社 2006
[8] 张朝晖 姜开宇 赵丹阳 编著 《SolidWorks 2005精彩实例教程》 北京大学出版社 2006
[9] 张朝晖 王富耻 王鲁 李树奎 编著 《ANSYS工程应用范例入门与提高》 清华大学出版社 2004