1989.09-1993.07  哈尔滨工业大学金属材料及工艺系   本科

1993.09-1996.04  哈尔滨工业大学金属材料及工艺系   硕士

1996.04-2000.07  清华大学机械工程系       博士

2013.12—目前  清华大学工程机械系  教授

2003.12-2013.11 清华大学工程机械系  副研究员

2003.04-2003.11 清华大学工程机械系  助理研究员

2001.05-2003.04 剑桥大学工程系      博士后

研究领域：

搅拌摩擦焊接与加工

成形制造过程模拟仿真与优化

轻合金材料的连接

研究概况：

主要科研项目：

 [1]   国家重点研发计划子课题：激光增材制造过程中热-组织-变形序贯耦合的建模仿真，项目负责人。

 [2]   国家自然科学基金面上项目：金属固态焊合微观机制的原子尺度模拟研究，项目负责人。

 [3]      企业委托项目：铝合金搅拌摩擦焊工艺应用研究，项目负责人。

 [4]      企业委托项目：高速动车组铝合金车体侧墙焊接变形控制工艺研究-数值模拟与仿真研究，项目负责人。

 [5]      国际合作项目：Development of numerical simulation during friction stir welding，项目负责人。

[1]    G. Chen, Z. Feng, J. Chen, L. Liu, H. Li, Q. Liu, S. Zhang, X. Cao, G. Zhang, Q. Shi, Analytical approach for describing the collapse of surface asperities under compressive stress during rapid solid state bonding. Scripta Materialia, 2017. 128: p. 41-44.

[2]    Zhu, Yucan; Chen, Gaoqiang; Chen, Qilong; Zhang, Gong; Shi, Qingyu. Simulation of material plastic flow driven by non-uniform friction force during friction stir welding and related defect prediction. Materials & Design, v108, p400-410, Oct, 2016.

[3]    Chen, Gaoqiang; Feng, Zhili; Zhu, Yucan; Shi, Qingyu. An Alternative Frictional Boundary Condition for Computational Fluid Dynamics Simulation of Friction Stir Welding. Journal of Materials Engineering and Performance. v25, n9, p4016-4023, Sep, 2016.

[4]    Chen, GQ; Shi, QY; Li, YJ; Han, ZD; Yuan, KY. Experimental investigations on the kinetics of void shrinkage in solid state bonding of AA6061 at high temperatures and high pressures. Materials & Design, v89, p1223-1226, Jan 2016.

[5]    Li, H.; Dai, Q. -L.; Shi, Q. –Y. Experimental study on the heterogeneity of mechanical properties of friction stir welded joints with the digital image correlation method. Strength of materials, v47, n1, p80-86, Jan 2015.

[6]    Dai, Q. L.; Wang, X. Y.; Hou, Z. G.; Wu, J.J.; Shi, Q.Y. Microcavities accompanying a zigzag line in friction stir welded A6082-T6 alloy joint. Science and technology of welding and joining. V20, n1, p68-74, Jan 2015.

[7]    戴启雷, 梁志芳, 吴建军, 史清宇. Al-Mg-Si合金搅拌摩擦焊接头DSC测试过程中组织变化及能量释放分析. 金属学报, v50, n5, p587-593, May, 2014.

[8]    Chen, G. Q.; Shi, Q. Y.; Fujiya, Y.; Simulation of Metal Flow During Friction Stir Welding Based on the Model of Interactive Force Between Tool and Material. Journal of materials engineering and performance. v23, n4, p1321-1328. Apr, 2014

[9]    Chen, G.Q.; Shi, Q.Y.; Li, Y.J.; Sun, Y.J.; Dai, Q.L.; Jia, J.Y.; Zhu, Y.C.; Wu, J.J.. Computational fluid dynamics studies on heat generation during friction stir welding of aluminum alloy. Computational Materials Science, v 79, p 540-546, Nov，2013.

[10]Dai, QL; Chen, GQ; Meng, LC; Shi, QY. Explore the mechanism of high fatigue crack propagation rate in fine microstructure of friction stir welded aluminum alloy. Materials science and engineering A, v 580, p 184-190, Sep. 15, 2013.

[11]Liu, P; Shi, QY; Zhang, YB. Microstructural evaluation and corrosion properties. of aluminum matrix surface composite adding Al-based amorphous fabricated by friction stir processing. Composites Part B-Engineering  Vol.52 ,p 137-143; Sep. 2013

[12]Ji, S.D.; Shi, Q.Y.; Zhang, L.G.; Zou, A.L.; Gao, S.S.; Zan, L.V. Numerical simulation of material flow behavior of friction stir welding influenced by rotational tool geometry. Computational Materials Science, v 63, p 218-226, October 2012

[13]Sun, K. ; Shi, Q.Y.; Sun, Y.J.; Chen, G.Q. Microstructure and mechanical property of nano-SiCp reinforced high strength Mg bulk composites produced by friction stir processing. Materials Science and Engineering A, v 547, p 32-37, June 15, 2012

[14]孙延军, 李德成, 张增磊, 鄢东洋, 史清宇. MTFM的建立及在铝合金筒体结构焊接变形预测中的应用. 金属学报，2011年11月, Vol. 47 (11): 1403-1407.

[15]Yan Dong-yang, Wu Ai-ping, Silvanus Juergen, Shi Qing-yu, Predicting residual distortion of aluminum alloy stiffened sheet after friction stir welding by numerical simulation. Materials & Design. April 2011, v 32, n 4: p2284-2291.

[16]康旭，史清宇，孙凯，王鑫. 包Al层聚集对搅拌摩擦焊接头力学性能的影响. 金属学报，2010年12月, V46(12): 1517-1521.

[17]张增磊, 史清宇, 鄢东洋, 蔡志鹏, 李德成. 夹具拘束模型在焊接过程有限元分析中的建立及应用. 金属学报，2010年2月，Vol. 46, No.02. p189-194.

[18]Xuedong Wang, Qingyu Shi, Xin Wang, Zenglei Zhang. The influences of precrack orientations in welded joint of Ti-6Al-4V on fatigue crack growth. Materials Science and Engineering A. Feb 2010, Vol.527, No.  p1008-1015.

[19]鄢东洋，史清宇，吴爱萍，Juergen Silvanus. 搅拌头机械载荷在搅拌摩擦焊接中的作用的数值分析. 金属学报. 2009年8月, Vol.45, No.8: p994~999.

[20]鄢东洋，史清宇，吴爱萍 等. 铝合金薄板搅拌摩擦焊接残余变形的数值分析. 金属学报. 2009年2月, Vol.45, No.2, p183-188.

[21]W. Wang, Q.Y. Shi, etc. A novel way to produce bulk SiCp reinforced aluminum metal matrix composites by friction stir processing. Journal of materials processing technology. Feb. 2009, Vol 209(4).p2099-2103

[22]Liu Peng, Shi Qing-yu, Wang Wei, etc. Microstructure and XRD analysis of FSW joints for copper T2/aluminium 5A06 dissimilar materials. Materials Letters, Sep. 2008, Vol 62(25), p 4106-4108

[23]Q.Y. Shi, J. Silvanus, Y. Liu, etc. Experimental study on distortion of Al-6013 plate after friction stir welding. Science and technology of welding and joining. Sep. 2008, Vol. 13(5), p 472-478

[24]Z.L. Zhang, J. Silvanus, H.K. Li, Q.Y. Shi. Sensitivity analysis of history dependent material mechanical models for numerical simulation of welding process. Science and technology of welding and joining. Sep. 2008, Vol. 13(5), p 422-429

[25]T. Li, Q.Y. Shi, H.K. Li. Residual stresses simulation for friction stir welded joint. Science and technology of welding and joining. Nov. 2007, Vol. 12(8), p664-670

1.  2016年10月，获“十二五”机械工业先进科技工作者；

2.  2013年12月，教育部自然科学二等奖；