个人简历

个人简介
黄海友，1979年生，工学博士，副研究员，硕士生导师。2001年3月毕业于北京科技大学材料工程与科学学院材料物理专业，获学士学位；2007年3月毕业于北京科技大学材料科学与工程学院材料物理与化学专业，获博士学位；2007年3月-2009年4月于香港科技大学机械工程系从事博士后研究。2008年回国，在北京科技大学新材料技术研究院进行教学科研工作。在Applied Physics Letters、APL Materials、Scripta Materials等期刊上发表学术论文57篇，其中SCI收录39篇，EI收录10篇。申请专利11项，其中5项已授权：参编著作3部；2017年获教育部自然科学奖二等奖

研究领域

1.材料数据库与大数据技术的应用
2.数据驱动材料设计与开发
3.形状记忆合金
4.多场耦合下的材料功能特性与失效行为

近期论文

代表性论文：
　　1. Ji-Li Liu, Hai-You Huang*, Jian-Xin Xie, Shuang Xu, Fang Li, Superelastic fatigue of columnar-grained Cu-Al-Mn shape memory alloy under cyclic tension at high strain. Scripta Materialia, 2017, 136: 106–110. (SCI 3.747)
　　2. Ji-li Liu, Zhi-Hong Chen, Hai-You Huang*, Jian-Xin Xie, Microstructure and superelasticity control by rolling and heat treatment in columnar-grained Cu-Al-Mn shape memory alloy. Materials Science & Engineering A. 2017, 696: 315–322. (SCI 2.647)
　　3. Sheng Xu, Hai-You Huang, Jianxin Xie, Shouhei Takekawa, Xiao Xu, Toshihiro Omori, and Ryosuke Kainuma, Giant elastocaloric effect covering wide temperature range in columnar-grained Cu71.5Al17.5Mn11 shape memory alloy. APL Materials, 2016, 4(10): 106106 . (SCI 4.323)
　　4. Ji-Li Liu, Hai-You Huang, Jian-Xin Xie, Superelastic anisotropy characteristics of columnar-grained Cu-Al-Mn shape memory alloys and its potential applications. Materials and Design. 2015, 85:211–220. (SCI 3.997)
　　5. Ji-Li Liu, Hai-You Huang, Jian-Xin Xie, The roles of grain orientation and grain boundary characteristics in the enhanced superelasticity of Cu71.8Al17.8Mn10.4 shape memory alloys. Materials and Design. 2014, 64:427–433. (SCI 3.171)
　　6. Hai-You Huang, Yu Wang, Jian-Xin Xie*, Stress-induced phase transformation characteristics and its effect on the enhanced ductility in continuous columnar-grained polycrystalline Cu–12wt% Al alloy. Materials Science and Engineering A, 2014, 596: 103-111. (SCI 2.409)
　　7. Chun-Lei Gan, Xue-Feng Liu, Hai-You Huang, Jian-Xin Xie, Effects of room-temperature deformation on mechanical properties, microstructure and texture of continuous columnar-grained BFe10-1-1 cupronickel alloy tubes. Materials Science and Engineering A, 2013, 579: 202–208 (SCI 2.003)
　　8. Hai-You Huang, Jin-Ping Liu, Yu Wang, Xue-Feng Liu, Jian-Xin Xie, Tension-compression asymmetry of stress-induced transformations in martensitic Cu-12wt.%Al alloys, Materials Letters, 2012, 79:51-54 (SCI 2.224)
　　9. Yu Wang, Hai-You Huang, Jian-Xin Xie. Texture evolution and flow stress of columnar-grained polycrystalline copper during intense plastic deformation process at room temperature. Materials Science and Engineering A, 2011, 530:418-425. (SCI 2.090)
　　10. Yu Wang, Hai-You Huang, Jian-Xin Xie，Enhanced room-temperature tensile ductility of columnar-grained polycrystalline Cu–12 wt.%Al alloy through texture control by Ohno Continuous Casting process. Materials Letters, 2011, 65(7): 1123-1126 (SCI, IF:2.117)
　　11. Wu Ming, Huang Haiyou, Wuyang, Chu, Guo, Liqiu, Qiao, Lijie, Xu, Jiayue, Zhang Tongyi. Tuning the Ferroelectric and Piezoelectric Properties of 0.91Pb(Zn1/3Nb2/3)O3-0.09PbTiO3 Single Crystals and Lead Zirconate Titanate Ceramics by Doping Hydrogen, Journal of Physical Chemistry C, 2010, 114(21): 9955–9960, (SCI, IF: 3.40)
　　12. Changdong Gu, Chun Cheng, Haiyou Huang, Tailun Wong, Ning Wang, and Tong-Yi Zhang. Growth and Photocatalytic Activity of Dendrite-like ZnO@Ag Heterostructure Nanocrystals. Crystal Growth & Design. 2009, 9(7): 3278-3285, (SCI, IF: 4.215)
　　13. Hai-You Huang, Zhi-Ying Li, Jun-Yong Lu, Zhi-Jia Wang, Chong-ShunWang, Kei-May Lau, Kevin Jing Chen and Tong-Yi Zhang. Microbridge tests on gallium nitride thin Films. Journal of Micromechanics and Microengineering. 2009, 19: 095019, (SCI, IF: 2.233)
　　14. H.Y. Huang, W.Y. Chu, Y.J. Su, K.W. Gao, J.X. Li and L.J.Qiao. Hydrogen-induced semiconductor transformation of PZT ferroelectric ceramics. Journal of the American Ceramics Society. 2007, 90(7):2062-2066, (SCI, IF:1.586)
　　15. H.Y. Huang, W.Y. Chu, Y.J. Su, J.X. Li and L.J.Qiao. Experiment and first principles investigation on the hydrogen-hindered phase transformation of ferroelectric ceramics. Applied Physics Letters. 2006, 89:142904, (SCI, IF:4.127)