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合肥工业大机械工程学院导师教师师资介绍简介-陈顺华

本站小编 Free考研考试/2021-04-24

姓 名 陈顺华

职 称 教授
职 务

所属系 机械制造工程系
邮 箱 shchen@hfut.edu.cn
电 话

教授,博士,硕士生导师
安徽省高层次人才计划(2019)
省级领军人才(2019)
合肥工业大学黄山青年****(2016)
香港理工大学博士后计划(2015)
中国机械工程学会高级会员
中国有色金属学会会员
教育工作经历:
2016-至今,合肥工业大学,教授
2015-2016,香港理工大学,博士后研究员
2010-2014,香港理工大学,博士
学术兼职:
担任Scripta Mater., Appl. Sur. Sci., J. Mater. Sci. Tec., J. Appl. Phys.等国际知名期刊审稿人


主要研究方向
从事新金属材料(金属玻璃、高熵合金等)先进制造技术及装备研发,具体研究方向包括:
新金属材料电火花加工、激光加工等非传统加工
新金属材料先进铸造、成形
新金属材料切削加工
新金属材料机械性能及相关零部件设计、制造
相关数控装备研发
开设课程
承担本科生课程:
《互换性与测量技术》
《材料成形技术基础》
教学成果:
荣获安徽省教学成果一等奖(排名第五)
承担课程荣获国家精品在线开放课程(排名第五)
承担研究生教研项目1项
发表教研论文4篇


近年的科研项目、专著与论文、专利、获奖


近年来承担国家自然科学基金、安徽省科技重大专项(合作单位负责人)、国家重点实验室开放基金等纵向课题;在Acta Mater., Scrpta Mater., Appl. Phys. Lett.,J. Mater. Sci. Tech., Mater. Sci. Eng. A, Mater. Des.,Intermetallics等国际知名期刊上发表SCI收录学术论文40余篇,其中应邀撰写发表综述论文2篇,申报发明专利17项。部分项目及代表性成果如下:
部分科研项目
1.国家自然科学基金,24万元,主持
2.安徽省重大科技专项,67万元,合作单位负责人
3.合肥工业大学“重大科研成果培育计划”,100万元,主持
4.亚稳材料制备技术与科学国家重点实验室开放基金,3万元,主持
5.合肥工业大学引进人才启动基金,30万元,主持
6.香港理工大学博士后项目,70万港币,负责人
部分研究论文:
(1)S.H. Chen*, H.Y. Cheng, K.C. Chan* and G. Wang, Metallic glass structures for mechanical-energy-dissipation purpose: A review, Metals, 2018, 8:689 (Invited)
(2)S.H. Chen*, J.Y. Wang, L. Xia and Y.C. Wu*, Deformation behavior of bulk metallic glasses and high entropy alloys under complex stress fields: A review, Entropy, 2019, 21:54 (Invited)
(3)S.H. Chen, K.C. Chan, T.M. Yue and F.F. Wu, Highly stretchable kirigami metallic glass structures with ultra-small strain energy loss, Scripta Mater., 2018, 142:83
(4)S.H. Chen, K.C. Chan, F.F. Wu and L. Xia. Pronounced energy absorption capacity of cellular bulk metallic glasses, Appl. Phys. Lett., 2014, 104:111907.
(5)S.H. Chen*, H.H. Tang, H.M. Zheng, W.J. Chang, J.C. Zhang, H.D. Yang, Z.F. Zhang, D.B. Yu, K.C. Chan and R.P. Liu*, Achieving stable plastic flows in a Zr-based bulk metallic glass under tailored mixed-mode (I/II) loading conditions. Mater. Sci. Eng. A, 2020, 772:138695.
(6)L. Zhao, K.C. Chan, S.H. Chen, S.D. Feng, D.X. Han and G. Wang, Tunable tensile ductility of metallic glasses with partially rejuvenated amorphous structures, Acta Mater., 2019, 169: 122.
(7)T. Zhang, L.J. Xin, F.F. Wu, R.D. Zhao, J. Xiang, M.H. Chen, S.S. Jiang, Y.J. Huang, and S.H. Chen, Microstructure and mechanical properties of FexCoCrNiMn high-entropy alloys, J. Mater. Sci. Tech, 2019, 35:2331
(8)S.H. Chen, K.C. Chan, D.X. Han, L. Zhao and F.F. Wu, Programmable super elastic kirigami metallic glasses, Mater. Des., 2019, 169: 107687.
(9)W.J. Chang, Y.Y. Xi, H.W. Li, S.H. Chen, B.L. Dong, J.H. Zhang. Experimental research on the MRR of ultrasonic vibration aided electric discharge milling of ceramic materials using deionized water as processing medium, Mach. Sci. Technol., 2019
(10)H.Y. Cheng, S.H. Chen*, Y.Q. Qin, S.D. Feng, K.C. Chan and Y.C. Wu*, On the variation of the mechanical energy accumulation rates during the flow serrations of a Zr-based bulk metallic glass, J. Non-Cryst. Solids, 2019, 508:1.
(11)K. Chen, R. Wu, H.M. Zheng, H.S. Wang, G.J. Zhang and S.H. Chen. Light trapping schemes for silicon thin-film solar cells via super-quadratic subwavelength gratings. Appl. Optics. 2019
(12)L. Zhao, K.C. Chan, S.D. Feng, X.Z. Lu, S.H. Chen, G. Wang. Atomistic understanding of deformation-induced heterogeneities in wire drawing and their effects on the tensile ductility of metallic glass wires. J. Alloys Compd, 2019, 803: 193.
(13)K. Chen, R. Wu, H.M. Zheng, G.J. Zhang, Y.Y. Wang, H.S. Wang and S.H. Chen, Reflection behavior of two-dimensional super-quadratic subwavelength gratings for thin-film solar cells, J. Opt. Soc. Am. A, 2019, 36:647.
(14)K. Chen, G.J. Zhang, R. Wu, L. Wang, H.M. Zheng and S.H. Chen, Dynamic analysis of a planar hydraulic rock-breaker mechanism with multiple clearance joints, Shock Vib, 2019, **.
(15)H.H. Tang, Y.C. Cai, Q. Zuo, S.H. Chen* and R.P. Liu, Achieving high uniformity of the elastic strain energy accumulation rate during the serrated plastic flows of bulk metallic glasses, Mater. Sci. Eng. A, 2018, 736:269.
(16)L. Zhao, K.C. Chan and S.H. Chen, Atomistic deformation mechanisms of amorphous polycrystalline metallic nanolaminates, Intermetallics, 2018, 95:102.
(17)S.H. Chen*, A. Domel, T.M. Yue, C.P. Tsui, K.C. Chan, K.A. Dahmen and P.K. Liaw, Deformation behavior of bulk metallic glasses under a mixed-mode (I/II) loading condition, Intermetallics, 2018, 93:148.
(18)S. D. Feng, K. C. Chan, S.H. Chen, L. Zhao and R. P. Liu, The role of configurational disorder on plastic and dynamic deformation in Cu64Zr36 metallic glasses: A molecular dynamics analysis, Sci. Rep., 2017, 7:40969.
(19)F. F. Wu, J. S. Wei, K. C. Chan, S. H. Chen, R. D. Zhao, G. A. Zhang and X. F. Wu, Revealing homogeneous plastic deformation in dendrite-reinforced Ti-based metallic glass composites under tension, Sci. Rep., 2017, 7:42598.
(20)S.H. Chen, K.C. Chan, G. Wang, F.F. Wu, L. Xia, J.L. Ren, J. Li, K.A. Dahmen and P.K. Liaw. Loading-rate-independent delay of catastrophic avalanches in a bulk metallic glass. Sci. Rep., 2016, 6:21967.
(21)S.H. Chen, K.C. Chan, G. Wang and J. Yi. Saw-tooth-like bulk metallic glass structures with greatly enhanced energy-absorption performance. J. Alloys Compd, 2016, 661:49.
(22)S.H. Chen*, T.M. Yue, C.P. Tsui and K.C. Chan, Flaw-induced plastic-flow dynamics in bulk metallic glasses under tension, Sci. Rep., 2016, 6:36130.
(23)S.H. Chen*, T.M. Yue, C.P. Tsui and K.C. Chan, Effect of external disturbances on the strain-rate dependent plastic deformation behavior of a bulk metallic glass, Mater. Sci. Eng. A, 2016, 669:103.
(24)J.J. Fan, Y,F. Yan, S.H. Chen*, C.H. Ng, F.F. Wu and K.C. Chan. Reliability of the plastic deformation behavior of a Zr-based bulk metallic glass, Intermetallics, 2016, 74:25.
(25)B.A. Sun, S.H. Chen, Y.M. Lu, Z.G. Zhu, Y.L. Zhao, Y. Yang, K.C. Chan, and C.T. Liu, Origin of shear stability and ductility enhancement of metallic glasses by soft metal coating, Sci. Rep., 2016, 6:27852.
(26)F. Gong, S.H. Chen, J.Q. Ran, Z. Yang, and J. Ma, Tuning the performance of bulk metallic glasses by milling artificial holes, Mater. Sci. Eng. A, 2016, 668: 50.
(27)F.F. Wu, K.C. Chan, S.H. Chen, S.S. Jiang and G. Wang, ZrCu-based Bulk metallic glass composite with large strain-hardening capability. Mater. Sci. Eng. A, 2015, 636:5
(28)S.H. Chen, D. Ding, P. Yu, Z.W. Wang and L. Xia. Hierarchical amorphous structures in a Zr50Cu42Al8 bulk metallic glass. Mater. Sci. Eng. A, 2015, 639:75.
(29)S.H. Chen, K.C. Chan, F.F. Wu and L. Xia. Achieving high energy absorption capacity in cellular bulk metallic glasses. Sci. Rep., 2015, 5:10302.
(30)S.H. Chen, K.C. Chan and L. Xia. Fracture morphologies of Zr-based bulk metallic glasses under different stress states. Adv. Eng. Mater., 2015, 17:366.
(31)S.H. Chen, K.C. Chan and L. Xia. Deformation behavior of bulk metallic glass structural elements. Mater. Sci. Eng. A, 2014, 606:196.
(32)F.F Wu, K.C. Chan, S.S. Jiang, S.H. Chen and G. Wang. Bulk metallic glass composite with good tensile ductility, high strength and large elastic strain limit. Sci. Rep., 2014, 4:5302.
(33)S.H. Chen, K.C. Chan and L. Xia. Deformation behavior of a Zr-based bulk metallic glass under a complex stress state. Intermetallics, 2013, 43:38.
(34)S.H. Chen, K.C. Chan and L. Xia. Effect of stress gradient on the deformation behavior of a bulk metallic glass under uniaxial tension. Mater. Sci. Eng. A, 2013, 574:262.
(35)J. Ma, K.C. Chan, L. Xia, S.H. Chen, F.F. Wu, W.H. Li and W.H. Wang. Multi-layer laminated Pd-based metallic glass with enhanced plasticity. Mater. Sci. Eng. A, 2013, 587:240.
(36)W. Chen, K.C. Chan, S.H. Chen, S.F. Guo, W.H. Li and G. Wang. Plasticity enhancement of a Zr-based bulk metallic glass by an electroplated Cu/Ni bilayered coating. Mater. Sci. Eng. A, 2012, 552:199.
部分发明专利:
1.陈顺华等,一种金相样品打磨装置,实审
2.陈顺华等,一种多类面点3d打印装置,实审
3.陈顺华等,一种新型简化电极群孔电解加工工艺装置,实审
4.陈顺华等,一种分布式模块化车载电池管理系统,实审
5.常伟杰,陈顺华等,双向受力分级破碎桌面级自动化山核桃取仁机,实审
6.常伟杰,陈顺华等,整体可开式防破拆家庭危急逃生窗,实审
7.秦永强,胡叶明,陈顺华等,一种6063铝合金的热处理工艺,实审
8.陈科,史洪扬,郑红梅,陈顺华等,混合式永磁联轴器,授权
秦永强,胡叶明,彭宇强,陈顺华等,一种消除铝合金挤压板搅拌摩擦焊接接头底部缺陷的方法,实审





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