研究方向
导热复合材料
微纳尺度界面传热
教育经历
1999/04-2003/06 西安交通大学 材料科学与工程学院 博士
1996/09-1999/03 华北工学院 金属材料及工程系 硕士
1992/09-1996/07 华北工学院 金属材料及工程系 学士
工作经历
2012/07 至今 北京科技大学 新金属材料国家重点实验室 研究员
2010/08-2012/06 北京科技大学 新金属材料国家重点实验室 副教授
2005/08-2010/07 北京科技大学 材料科学与工程学院 讲师、副教授
2003/10-2005/08 清华大学 材料科学与工程系 博士后
2016/07-2016/09 美国德克萨斯大学达拉斯分校 访问学者
2011/04-2012/04 德国达姆施塔特工业大学 访问学者
荣 誉
教育部新世纪优秀人才 2010
北京市科技新星 2007
论文著作
[1] X.Y. Zhu, C. Yang, P.W. Wu, Z.Q. Ma, Y.Y. Shang, G.Z. Bai, X.Y. Liu, G. Chang, N. Li, J.J. Dai, X.T. Wang, H.L. Zhang: Precise control of versatile microstructure and properties of graphene aerogel via freezing manipulation, Nanoscale, 12 (2020) 4882-4894
[2] X.Y. Liu, F.Y. Sun, L.H. Wang, Z.X. Wu, X.T. Wang, J.G. Wang, M.J. Kim, H.L. Zhang: The role of Cr interlayer in determining interfacial thermal conductance between Cu and diamond, Applied Surface Science, 515 (2020) 146046
[3] G. Chang, F.Y. Sun, L.H. Wang, Z.X. Che, X.T. Wang, J.G. Wang, M.J. Kim, H.L. Zhang: Regulated interfacial thermal conductance between Cu and diamond by a TiC interlayer for thermal management applications, ACS Applied Materials & Interfaces, 11 (2019) 26507-26517
[4] L.H. Wang, J.W. Li, M. Catalano, G.Z. Bai, N. Li, J.J. Dai, X.T. Wang, H.L. Zhang, J.G. Wang, M.J. Kim: Enhanced thermal conductivity in Cu/diamond composites by tailoring the thickness of interfacial TiC layer, Composites Part A, 113 (2018) 76-82
[5] G. Chang, F.Y. Sun, J.L. Duan, Z.F. Che, X.T. Wang, J.G. Wang, M.J. Kim, H.L. Zhang: Effect of Ti interlayer on interfacial thermal conductance between Cu and diamond, Acta Materialia, 160 (2018) 235-246
[6] Z.F. Che, J.W. Li, Q.X. Wang, L.H. Wang, H.L. Zhang, Y. Zhang, X.T. Wang, J.G. Wang, M.J. Kim: The formation of atomic-level interfacial layer and its effect on thermal conductivity of W-coated diamond particles reinforced Al matrix composites, Composites Part A, 107 (2018) 164-170
[7] Z.F. Che, Q.X. Wang, L.H. Wang, J.W. Li, H.L. Zhang, Y. Zhang, X.T. Wang, J.G. Wang, M.J. Kim: Interfacial structure evolution of Ti-coated diamond particle reinforced Al matrix composite produced by gas pressure infiltration, Composites Part B, 113 (2017) 285-290
[8] J.W. Li, H.L. Zhang, L.H. Wang, Z.F. Che, Y. Zhang, J.G. Wang, M.J. Kim, X.T. Wang: Optimized thermal properties in diamond particles reinforced copper-titanium matrix composites produced by gas pressure infiltration, Composites Part A, 91 (2016) 189-194
[9] J.W. Li, X.T. Wang, Y. Qiao, Y. Zhang, Z.B. He, H.L. Zhang: High thermal conductivity through layer optimization in diamond particles dispersed Zr-alloyed Cu matrix composites, Scripta Materialia, 109 (2015) 72-75
[10] J.S. He, X.T. Wang, Y. Zhang, Y.M. Zhao, H.L. Zhang: Thermal conductivity of Cu-Zr/diamond composites produced by high temperature-high pressure method, Composites Part B, 68 (2015) 22-26
[11] Y. Zhang, H.L. Zhang, J.H. Wu, X.T. Wang: Enhanced thermal conductivity in copper matrix composites reinforced with titanium-coated diamond particles, Scripta Materialia, 65 (2011) 1097-1100
[12] H.B. Qin, H.L. Zhang, B.P. Zhang, L.H. Xu: Hydrothermal synthesis of perovskite BiFeO3–BaTiO3 crystallites, Journal of the American Ceramic Society, 94 (2011) 3671-3674
[13] H.L. Zhang, S. Yang, S. Yang, D.C. Kong, B.P. Zhang, Y.J. Zhang: Reliability enhancement in nickel-particle-dispersed alkaline niobate piezoelectric composites and actuators, Journal of the European Ceramic Society, 31 (2011) 795-800
[14] S.W. Zhang, H.L. Zhang, B.P. Zhang, G.L. Zhao: Dielectric and piezoelectric properties of (Ba0.95Ca0.05)(Ti0.88Zr0.12)O3 ceramics sintered in a protective atmosphere, Journal of the European Ceramic Society, 29 (2009) 3235-3242
[15] H.L. Zhang, J.F. Li, B.P. Zhang: Microstructure and electrical properties of porous PZT ceramics derived from different pore-forming agents, Acta Materialia, 55 (2007) 171-181
[16] H.L. Zhang, J.F. Li, B.P. Zhang, K.F. Yao, W.S. Liu, H. Wang: Electrical and thermal properties of carbon nanotube bulk materials: Experimental studies for the 328K-958K temperature range, Physical Review B, 75 (2007) 205407
[17] H.L. Zhang, J.F. Li, B.P. Zhang: Sintering and piezoelectric properties of co-fired lead zirconate titanate/Ag composites, Journal of the American Ceramic Society, 89 (2006) 1300-1307
[18] H.L. Zhang, P.Z. Huang, J. Sun, H. Gao: Morphological healing evolution of penny-shaped fatigue microcracks in pure iron at elevated temperatures, Applied Physics Letters, 85 (2004) 1143-1145
Chapter in Book
H.L. Zhang, X.T. Wang, J.G. Wang, M.J. Kim: “Chapter 17: Interface tailoring and thermal conductivity enhancement in diamond particles reinforced metal matrix composites” in “Interfaces in Particle and Fibre Reinforced Composites”, edited by K.L. Goh, et al., Elsevier Woodhead Publishing, 2019 (ISBN: 9780081026656)
专 利
[1] 张海龙,李宁,王西涛,戴景杰,宋为:一种镀锆金刚石颗粒增强铝基复合材料的制备方法,ZL201810421971.1, 2019.12.13
[2] 张海龙,李建伟,王西涛,张洋:一种镀铬金刚石颗粒分散铜基复合材料的制备方法,ZL201610023888.X, 2017.11.17
[3] 王西涛,张洋,吴建华,张海龙,杨滨,王艳丽,李甲甲:高压气体辅助熔渗制备金属基复合材料的装置及方法,ZL201110105288.5, 2013.02.27
[4] 张海龙,张楠,张波萍,赵高磊:一种铌酸钾钠/铜功能梯度结构压电驱动器件的制备方法,ZL200810119689.4, 2010.06.02
科研项目
1、三维连通石墨烯/铝复合材料的界面调控及导热机制(51871014),国家自然科学基金面上项目,主持 2019-2022
2、用于激光晶体冷却的新型散热材料及散热机制(2016YFB0402102),国家重点研发计划课题,参与 2016-2020
3、铜/碳化物/金刚石纳米多层结构的微尺度传热机制(51571015),国家自然科学基金面上项目,主持 2016-2019
4、具有成分梯度界面层的铜/金刚石复合材料的导热性能研究(51271017), 国家自然科学基金面上项目,主持 2013-2016
5、新型功能梯度结构压电驱动器的制备技术 (2006AA03Z436),国家863计划,主持 2006-2008
6、陶瓷/金属功能梯度压电驱动器的微结构设计与熔浸法制备研究 (50402002),国家自然科学基金青年基金,主持 2005-2005
学术兼职
1. 中国复合材料学会导热复合材料专业委员会 委员
2. 中国复合材料学会 高级会员
3. 中国化工学会 会员
4. 美国陶瓷学会 会员
5. 国际学术期刊《ACS Applied Materials & Interfaces》、《Composites Part A》、《Composites Part B》、《Journal of the American Ceramic Society》、《Applied Thermal Engineering》、《Journal of Alloys and Compounds》、《Diamond & Related Materials》等审稿人
