郭明星 - 北京科技大学 - 新金属材料国家重点实验室

个人简介

教育经历： 1998.09-2002-06，中南大学，材料科学与工程学院，学士 2002.09-2005-06，中南大学，材料科学与工程学院(导师：汪明朴教授)，硕士 2005.09-2008.06，中南大学，材料科学与工程学院(导师：汪明朴教授)，博士工作经历： 2009.01-2010.07 瑞士联邦理工（EPFL）力学冶金实验室（导师：Prof. Andreas Mortensen） Web site: http://www.epfl.ch 博士后研究员 2011.01-2012.01 加拿大马克马斯特大学材料学院（导师：Prof. Hatem Zurob）Web site: http://www.mcmaster.ca 博士后研究员 2012.01-至今北京科技大学新金属材料国家重点实验室副教授 2017.09-2018.09 美国加州大学欧文分校（UCI）材料系（合作导师Prof. Enrique J. Lavernia）Web site: http://www.uci.edu 访问学者

研究领域

汽车用新型6xxx和7xxx系铝合金的研究与开发，包括设计、加工、表征、组织性能调控、快速时效响应机理、高成形性机理等新型高强度易加工复相铜合金的设计、开发、加工和表征研究新型铝合金复合板材的设计开发与应用研究，包括板材设计、工艺调控、加工和变形机理等材料制备新技术的开发与应用，如外场作用下的熔铸工艺开发、固液复合工艺、快速凝固、粉末冶金等新型金属材料、纳米材料以及金属基复合材料的设计开发、加工以及变形行为等研究原位反应热力学与动力学以及相关数值模拟等研究

近期论文

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（1）M.X. Guo*, J. Zhu, Y. Zhang, G.J. Li, J.S. Zhang, L.Z. Zhuang, The formation of bimodal grain size distribution in Al-Mg-Si-Cu alloy and its effect on the formability, Materials Characterization, 2017, 132:248-259. (SCI, EI) （2）M.X. Guo*, X.K. Zhang, J.S. Zhang, L.Z. Zhuang*. Effect of Zn addition on the precipitation behaviors of Al-Mg-Si-Cu alloys for automotive applications, Journal of Materials Science, 2017, 52(3):1390-1404. (SCI, EI) （3）M.X.Guo*, J. Zhu, L. Yi, F. Wang, G.J. Li, R.S. Lei，Effects of precipitation and strain-induced martensitic transformation of Fe-C phases on the mechanical properties of Cu-Fe-C alloy，Materials Science and Engineering A, 2017,697:119-125. (SCI, EI) （4）M.X.Guo*, Y. Zhang, X.K. Zhang, J.S. Zhang, L.Z. Zhuang，Non-isothermal precipitation behaviors of Al-Mg-Si-Cu alloys with different Zn contents, Materials Science and Engineering A, 2016，669:20-32.(SCI, EI) （5）Mingxing Guo*, Long Yi, Jie Zhu, Tong Lin, Miaomiao Li, Strain-induced martensitic transformation of particles in a copper-based composite and its effect on mechanical properties, Materials Characterization,2016,120: 109-114. (SCI，EI) （6）Xiaofeng Wang, Mingxing Guo*, Jinru Luo, Jie Zhu, Jishan Zhang, Linzhong Zhuang，Effect of Zn on microstructure, texture and mechanical properties of Al-Mg-Si-Cu alloys with a medium number of Fe-rich phase particles，Materials Characterization, 2017，134:123-133. (SCI, EI) （7）X.F. Wang, M.X. Guo, Y. Chen , J. Zhu , J.S. Zhang , L.Z. Zhuang, Effect of thermomechanical processing on microstructure, texture evolution and mechanical properties of Al-Mg-Si-Cu alloys with different Zn contents, Metallurgical and Materials Transactions A,2017,48:3540-3558. (SCI, EI) （8）XiaofengWanga,*,MingxingGuob,*, JishanZhangb, LinzhongZhuangb, Effect of Zn addition on the microstructure, texture evolution and mechanical properties of Al-Mg-Si-Cu alloys, Materials Science and Engineering A,2016,677：522-533. (SCI, EI) （9）Xiaofeng Wang, MingxingGuo*, Yan Zhang, Hui Xing, Yong Li, Jinru Luo, Jishan Zhang, Linzhong Zhuang*,The dependence of microstructure, texture evolution and mechanical properties of Al-Mg-Si-Cu alloy sheet on final cold rolling deformation, Journal of Alloys and Compounds, 2016,627:906-916. (SCI，EI) （10）Mingxing Guo*, Fei Wang, Long Yi, The microstructure controlling and deformation behaviors of Cu-Fe-C alloy prepared by rapid solidification, Materials Science and Engineering A,2016,657:197-209.(SCI，EI) （11）M.X. Guo*, G. Sha, L.Y. Cao, W.Q. Liu, J.S. Zhang, L.Z. Zhuang. Enhanced bake-hardening response of an Al-Mg-Si-Cu alloy with Zn addition，Materials Chemistry and Physics, 2015, 162: 15-19 (SCI，EI) （12）Mingxing Guo*, Fei Wang, Yan Zhang, Xukai Zhang，In-situ reaction kinetics and microstructure evolution in preparing particle-containing Copper alloys by mechanical alloying，Metallurgical and Materials Transactions B，2015; 46(2): 841-851.(SCI，EI) （13）Mingxing Guo, Damon Panahi, Hugo Van Landeghem, Christopher R. Hutchinson, Gary Purdy, Hatem S. Zurob, A Comparison of Ferrite Growth Kinetics under Denitriding and Decarburizing Conditions, Metallurgical and Materials Transactions A, 2015，46（6）：2449-2454. (SCI，EI) （14）Mingxing Guo*, Fei Wang, Guojie Huang, Wenlu Bi, Yan Zhang, Mingpu Wang, Influences of strain rate and load direction on thermo-mechanical behavior of nano alumina-containing copper alloy bar, Journal of Electronic Materials, 2015,44(10):3523-3533.(SCI，EI) （15）Mingxing Guo*, Kun Shen, Mingpu Wang. Relationship between microstructure, properties and reaction conditions for Cu-TiB2 alloys prepared by in situ reaction, Acta Materialia, 2009, 57: 4568- 4579. (SCI, EI) （16）M.X. Guo*, K. Shen, M.P. Wang, Effect of in situ reaction conditions on the microstructure changes of Cu-TiB2 alloys by combining in situ reaction and rapid solidification, Materials Chemistry and Physics, 2012,131:589-599. (SCI, EI) （17）M.X. Guo*, M.P. Wang, Effects of particle size, volume fraction, orientation and distribution on the high temperature compression and dynamical recrystallization behaviors of particle-containing alloys, Materials Science and Engineering A, 2012,546: 15-25. (SCI, EI) （18）M.X. Guo*, M.P. Wang, et al, Tensile Fracture Behavior Characterization of Dispersion Strengthened Copper Alloys, Journal of Alloys and Compounds, 2009, 469(1-2): 488-498. (SCI, EI) （19）M.X. Guo*, M.P. Wang, et al, Synthesis of Nano TiB2 particles in copper matrix by in-situ reaction of double-beam melts, Journal of Alloys and Compounds, 2008,460: 585-589. (SCI, EI) （20）M.X. Guo*, M.P. Wang, et al, Work softening characterization of alumina dispersion strengthened copper alloys, Materials Characterization, 2007, 58:928-935. (SCI, EI)