浙江大学航空制造工程研究所
Institute of Aerospace Manufacturing Engineering
航空制造高端装备研究中心
Research Center of High-end Equipment for Aerospace Manufacturing
中文 | English
科研队伍

高重阳/副教授

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  高重阳

  办公电话:0571-87953929

  电子邮件:lxgao@zju.edu.cn

  通讯地址:浙江大学紫金港校区开物苑3幢211室


一、个人履历

  1、教育背景

  1990.09-1997.03 北京航空航天大学航空、宇航学院 空间飞行器设计专业工学学士、硕士

  1997.04-2001.03 清华大学航天航空学院 固体力学专业工学博士

  2、工作经历

  2003.01-至 今  浙江大学应用力学研究所、航空制造工程研究所讲师、副教授

  2010.08-2011.08 新南威尔士大学(UNSW)制造工程学院合作访问研究人员

  2006.07-2006.12 悉尼大学(USYD)航空与机械工程系海外Endeavour访问学者  

  2001.09-2002.11 法国矿业大学(Ecole des Mines)材料加工研究中心博士后研究人员


二、研究方向

  1. 复合材料多尺度力学理论与虚拟性能跨尺度计算

  2. CFRPs纳米增韧、生物自修复、隐身多功能设计

  3. 新型复合材料微纳制造及工艺优化

  4. 复合材料极端环境模拟力学测试与评价


三、 奖励荣誉

  1. 浙江省2013年度杰出青年基金获得者

  2. 澳洲政府海外最高研究奖学金Endeavour Scholarship获得者

  3. 美国第20届、23届国际塑性会议(Plasticity 2014)分会场共同主席及特邀报告

  4. 国际加工杂志(Int J Mach Machinability Mater) 复材专刊客座主编

  5. 复合材料制造与基础研究国际学术研讨会(ISMMC 2014)会议秘书长


四、学术兼职

  国际计算力学学会(IACM)会员、中国复合材料学会青年工作委员会首届委员。国家自然科学基金委通讯评审专家、国家留学回国人员启动基金特邀评审专家。担任《Int J Plasticity》、《Mater Sci Eng -A》、《J Mater Sci》、《Int J Impact Eng》、《SCIENCE CHINA -Tech Sci》、《Acta Mechanica Sinica》及《航空学报》等国内外核心期刊审稿人。


五、代表性学术论文

  1. L.L. Zhu, C.S. Wen, C.Y. Gao, X. Guo, Z. Chen, J. Lu. Static and dynamic mechanical behaviors of gradient-nanotwinned stainless steel with a composite structure: Experiments and modeling. International Journal of Plasticity. 114 (2019) 272-288.

  2. J.Z. Xiao, C.Y. Gao, G.F. Wang, P.C Huang. Investigation on the effects of microstructure on machining unidirectional carbon fiber reinforced polymer composites with a modified force model. Journal of Reinforced Plastics and Composites. 38(8) (2019) 379–394.

  3. C.Y. Gao, L.C. Zhang. Constitutive modeling of plasticity of fcc metals under extremely high strain rates. International Journal of Plasticity. 32-33 (2012) 121-133. [ZJU100, IF=5.987, Citation=30]

  4. C.Y. Gao, J.Z. Xiao, Y.L. Ke. An analytical approach to cutting force prediction in milling of carbon fiber reinforced polymer laminates, Machining Science and Technology -An International Journal 22 (2018)1012-1028.

  5. C.Y. Gao, B. Zhan, L.Y. Chen, X.C. Li. A micromechanical model of graphene-reinforced metal matrix nanocomposites with consideration of graphene orientations, Composites Science and Technology, 152 (2017) 120-128. SCI-TOP, IF=5.2

  6. C.Y. Gao, J.G. Jia, Factor Analysis of Key Parameters on Cutting Force in Micromachining of Graphene Reinforced Magnesium Matrix Nanocomposites Based on FE simulation, International Journal of Advanced Manufacturing Technology, October 2017, Volume 92, Issue 9–12, pp 3123–3136.

  7. L.L. Zhu, C.S. Wen, C.Y. Gao*, X. Guo, J. Lu. A study of dynamic plasticity in austenite stainless steels with a gradient distribution of nanoscale twins. Scripta Materialia 133 (2017) 49–53.

  8. C.Y. Gao, J.Z. Xiao, L.C. Zhang, Y.L. Ke. On the static and dynamic properties of fiber-reinforced polymer composites: A three- phase constitutive model. Journal of Thermoplastic Composite Materials. 30 (2017) 1560-1577.

  9. C.Y. Gao, J.Z. Xiao, J.H. Xu, Y.L. Ke. Factor analysis of machining parameters of fiber-reinforced polymer composites based on finite element simulation with experimental investigation. International Journal of Advanced Manufacturing Technology. 2016, 83, 1113-1125.

  10. C.Y. Gao, L.C. Zhang, P.H. Liu. The role of material model in the finite element simulation of high-speed machining of Ti6Al4V. IMechE Part C: Journal of Mechanical Engineering Science. 2016, 230, 2959–2967.

  11. C. Y. Gao*, W. R. Lu, X. C. Li, Y. L. Ke. A physically-based plastic constitutive model considering nanoparticle cluster effect for metal matrix nanocomposites, Materials Science and Engineering A, 2015, 641, 172-180.  SCI-TOP, IF=2.567

  12. C. Y. Gao, Y. Lu, Y.T. Zhu. A new micromechanical model of CNT-metal nanocomposites with random clustered distribution of CNTs, Fracture and Structural Integrity, 2015, 33, 471-484.

  13. C. Y. Gao*, X. M. Zhao. Factor analysis of machining parameters of SiC nanoparticle-reinforced magnesium matrix composites with consideration of cluster effect, International Journal of Machining and Machinability of Materials, 2015, 17, 165-181.

  14. C.Y. Gao, L.C. Zhang*, W.G. Guo, Y.L. Li, W.R. Lu, Y.L. Ke. Dynamic plasticity of AZ31 magnesium alloy: Experimental investigation and constitutive modeling. Materials Science & Engineering A, 2014, 613, 379–389. SCI-TOP, IF=2.567

  15. W.R. Lu, C.Y. Gao*, Y.L. Ke. Constitutive modeling of two-phase metallic composites with application to tungsten-based composite 93W–4.9Ni–2.1Fe. Materials Science and Engineering A. 2014, 592, 136-142. SCI-TOP, IF=2.567, 1

  16. C.Y. Gao*, J.Z. Xiao, Y.L. Ke. FE Analysis of Stress Concentrations in Composite Plates with Multiple Holes for Zigzag Multi-Fastened Joints. Mater Sci Forum. 2014, 770, 17-20.

  17. C.Y. Gao, L.C. Zhang*. Effect of cutting parameters on the serrated chip formation in high speed cutting: A finite element analysis. Machining Science and Technology: An International Journal. 2013, 17, 26-40. SCI, IF=0.703, 3

  18. C.Y. Gao*, W.R. Lu. A constitutive description of the yield strength and strain hardening behaviors of nano-twinned metals. Key Eng. Mater. 2013, 535, 109-112.

  19. C.Y. Gao, W.R. Lu, L.C. Zhang*, H.X. Yan. A constitutive description of the thermo-viscoplastic behaviour of body-centered cubic metals. Materials and Design. 2012, 36, 671-678. SCI, IF=4.525, 8

  20. C.Y. Gao, P.H. Liu, L.C. Zhang*. An explicit integration algorithm for introducing user-defined thermo-viscoplastic constitutive models in FE simulations. Mater Sci Forum. 2012, 697-698, 204-207.

  21. C.Y. Gao*, W.R. Lu. Thermomechanical Response of Commercially Pure Titanium under Large Plastic Deformation at High Strain Rates. Adv. Mater. Res. 2012, 548, 174-178.

  22. C.Y. Gao, L.C. Zhang*, H.X. Yan. A new constitutive model for HCP metals. Materials Science and Engineering A. 2011, 528, 4445-4452. SCI, IF=2.567, 4

  23. C.Y. Gao*, B. Fang, Y.T. Gu. Theoretical analysis of serrated chip formation based on ideal models in high speed cutting. Adv. Mater. Res. 2011, 154, 239-245.

  24. C.Y. Gao, L.C. Zhang. Dislocation-Based Constitutive Descriptions of Dynamic Plasticity of FCC, BCC and HCP Metals: An Overview. Proc. of the 3rd Int Symposium on Plasticity and Impact, 2011, Hong kong, 115-120.

  25. C.Y. Gao, L.C. Zhang. A constitutive model for dynamic plasticity of FCC metals. Materials Science and Engineering A 527 (2010) 3138–3143.


六、专利/软件著作权成果

  1. 基于ABAQUS 的显式用户材料程序(VUMAT),2013SR086760, 2013.9.28,高重阳, 刘鹏辉, 卢微然, 肖建章.

  2. 多功能钢模板及其应用,国家发明专利,2012101724514,2014.12.24,杨帅, 庞苗, 高重阳, 张永强.

  3. 基于遗传算法的参数反分析优化程序软件,2016SR101537,2016.5.11,高重阳, 庞苗, 卢宇, 詹斌.

  4. 复合材料内颗粒随机分布的建模程序软件,2016SR101573,2016.5.11,赵晓萌, 庞苗, 高重阳, 贾继光.