陳軍

1986.9-1993.7 山東工業大學材料科學與工程系 本科、碩士

1993.9-1996.7 上海交通大學塑性成形工程系 博士

1996.8-1998.4 上海交通大學塑性成形工程系 講師

1998.4-1999.4 美國密歇根大學 訪問學者

1999.4-2004.8 上海交通大學塑性成形工程系 副教授

2004.9-2004.12 上海交通大學塑性成形工程系 教授，2004.10起任模具CAD國家工程研究中心副主任

2004.12-2011.4 上海交通大學塑性成形工程系 教授、博導，期間，2006.7-2011.4任上海交通大學塑性成形工程系副主任

2011.4- 今 上海交通大學材料學院塑性成形技術與裝備研究院 教授、博導

2011.4- 2015.5 上海交通大學材料學院塑性成形技術與裝備研究院 副院長

2015.5- 今 上海交通大學材料學院塑性成形技術與裝備研究院 院長 ^[2] 

輕質高強薄板塑性成形與數控漸進成形；

塑性成形力學模型與數值仿真、設計優化 ^[2] 

本科生課程：現代模具數字化設計與製造技術；

博士生課程：塑性成形過程仿真理論與系統分析 ^[2] 

華中科技大學材料成形與模具技術國家重點實驗室 學術委員會委員

山東省高校機械裝備設計與仿真重點實驗室 學術委員會副主任

中國模具工業協會經濟技術信息委員會 副主任委員

中國機械工程學會塑性工程分會 常務理事

上海市模具行業協會 副會長

Journal of Materials Processing Technology 編委

Proceedings of iMeche, Part B: Journal of Engineering Manufacture, Associate Editor

上海交通大學學報、塑性工程學報、鍛壓技術、精密成型工程和上海航天科技等期刊的編委 ^[2] 

上海市優秀學術帶頭人；

省部級科技進步一等獎1項；

國際學術會議傑出貢獻獎2項；

人才獎勵計劃4項 ^[2] 

上海市高校優秀青年教師獎、上海交通大學晨星青年教師獎勵計劃（A類）和上海交通大學“三育人”先進個人、教書育人獎 ^[3] 

先後主持國家自然科學基金項目、973課題、863項目、國家科技重大專子課題、重點研發計劃項目子課題、上海市科研項目和工業界資助課題40多項。在輕質高強薄板（高強度鋼、鋁合金、鈦合金）塑性成形和柔性漸進成形、塑性變形力學模型及其多物理場數值仿真、智能設計與設計優化方面，取得了具有學術創新性和工業應用價值的研究成果。發表學術論文250多篇，其中SCI論文110多篇。申請國家發明專利50多項（授權36項），軟件著作權授權10項；主編和參編中英文著作、手冊等10部。 ^[2] 

[1] Qi Hu, Xifeng Li, Xianhong Han, Heng Li, Jun Chen*. A normalized stress invariant-based yield criterion: modeling and validation, 2017, International Journal of Plasticity 99: 248-273

[2] Qi Hu, Li Zhang, Qiubao Ouyang, Xifeng Li, Xinhai Zhu, Jun Chen*. Prediction of forming limits for anisotropic materials with nonlinear strain paths by an instability approach,2018, International Journal of Plasticity,103:143-167

[3] Yuzhong Xiao, Jun Chen*, Jian Cao. A generalized thermodynamic approach for modeling nonlinear hardening behaviors. International Journal of Plasticity, 2012, 38: 102-122

[4] Zhidong Chang, Jun Chen*. Analytical model and experimental validation of surface roughness for incremental sheet metal forming parts, International Journal of Machine Tools and Manufacture, 146 (2019) 103453

[5] Zhiheng Wang, Sheng Cai, Jun Chen*. Experimental investigations on friction stir assisted single point incremental forming of low-ductility aluminum alloy sheet for higher formability with reasonable surface quality, Journal of Materials Processing Technology, 2019, Article in press

[6] Zhidong Chang, Meng Li Ming Li, Jun Chen*. Analytical modeling and experimental validation of the forming force in several typical incremental sheet forming processes, 2019, International Journal of Machine Tools and Manufacture 140: 62-76

[3] Zhidong Chang, Jun Chen*. Mechanism of the twisting in incremental sheet forming process, Journal of Materials Processing Technology, 276 (2020) 116396

[8] Qi Hu, Xifeng Li, Jun Chen*. New robust algorithms for Marciniak-Kuczynski model to calculate the forming limit diagrams, 2018, International Journal of Mechanical Sciences, 148: 293-306

[9] Huan Zhang, Zixuan Zhang, Huaqing Ren, Jian Cao, Jun Chen*. Deformation mechanics and failure mode in stretch and shrink flanging by double-sided incremental forming, 2018, International Journal of Mechanical Sciences, 144: 216-222

[10] Xifeng Li, Nanan Chen, H Wu, Jun Chen*, F Qu. Low-temperature superplastic gas bulging of Ti-55 alloy by hydrogen addition, 2018, International Journal of Hydrogen Energy, 43(27): 12455-12459

[11] Qi Hu, Xifeng Li, Jun Chen*. On the calculation of plastic strain by simple method under non-associated flow rule, 2018, European Journal of Mechanics, A/Solids, 67: 45-57

[12] Renhao Wu, Qi Hu, Meng Li, Sheng Cai, Jun Chen*. Evaluation of the forming limit of incremental sheet forming based on ductile damage, Journal of Materials Processing Technology, 2019, Article in press

[13] Qi Hu, Xifeng Li, Jun Chen*. On the calculation of plastic strain by simple method under nonassociated flow rule, 2018, European Journal of Mechanics A/Solids 67: 45-57

[14] Xianhong Han, Yaoyao Zhong, Shulin Tan, Yanan Ding, Jun Chen*. Microstructure and performance evaluations on Q&P hot stamping parts of several UHSS sheet metals, Science China Technological Sciences, 2017, doi: 10.1007/s11431-016-9111-y

[15] Qi Hu, Xifeng Li, Xianhong Han, Jun Chen*. A new shear and tension based ductile fracture criterion: modeling and validation, 2017, European Journal of Mechanics A/Solids, 66: 370-386

[16] Xifeng Li, Nannan Chen, Jun Chen*, Qiongfeng Mei, Li Wan, CL Jia, H Liu. Superplastic deformation behavior of Ti-55 alloy without and with 0.1wt%H addition, Materials Science & Engineering A, 2017

[17] Xifeng Li, Jun Jiang, Shen Wang, Jun Chen*,YQ Wang. Effect of hydrogen on the microstructure and superplasticity of Ti-55 alloy, International Journal of Hydrogen Energy, 2017 (42): 6338-6349

[18] Tingting Cao, Bin Lu, Hengan Ou, Hui Long, Jun Chen*. Investigation on a new hole-flanging approach by incremental sheet forming though a featured tool. International journal of Machine Tools and Manufacture, 2016, 110:1-17

[19] Xiangyu Yu, Jun Chen*, Jieshi Chen. Interaction effect of cracks and anisotropic influence on degradation of edge stretchability in hole-expansion of advanced high-strength steel, International Journal of Mechanical Sciences, 2016(105):348-359

[20] Bin Lu Yang Fang, Dongkai Xu, Jun Chen*, Sheng Ai, Hui Long, Hengan Ou, Jian Cao. Investigation of material deformation mechanism in double side incremental sheet forming. International Journal of Machine Tools and Manufacture, 2015 (93): 37-48

[21] Jun Chen*, Yuzhong Xiao, Wei Ding, Xinhai Zhu. Describing the non-saturating cyclic hardening behavior with a newly developed kinematic hardening model and its application in springback prediction of DP sheet metals, Journal of Materials Processing Technology 215 (2015): 151 - 158

[22] Feifei Zhang, Xifeng Li, Yongchao Xu, Jun Chen*, Jieshi Chen, Gang Liu, Shijian Yuan. Simulating sheet metal double-sided hydroforming by using thick shell element, Journal of Materials Processing Technology, 2015, 221: 13-20

[23] Bin Lu, Yang Fang, Dongkai Xu, Jun Chen*, Hengan Ou, NH Moser, Jian Cao. Mechanism investigation of friction-related effects in single point incremental forming using a developed oblique roller-ball tool International Journal of Machine Tools and Manufacture, 2014, (85): 14-29

[24] Feifei Zhang, Jieshi Chen, Jun Chen*, Xinhai Zhu. Forming limit model evaluation for anisotropic sheet metal under through-thickness normal stress, International Journal of Mechanical Sciences, 2014, 89: 40-46

[25] Yang Fang, Bin Lu, Jun Chen*, Dongkai Xu, Hengan Ou. Analytical and experimental investigations on deformation mechanism and fracture behavior in single point incremental forming. Journal of Materials Processing Technology 2014, (214): 1503-1515

[26] Dongkai Xu, Weichao Wu, Rajav Malhotra, Jun Chen, Bin Lu, Jian Cao. Mechanism investigation for the influence of tool rotation and laser surface texturing (LST) on formability in single point incremental forming. International Journal of Machine Tools and Manufacture, 2013,73: 37-46

[27] Yuzhong Xiao, Jun Chen*, Xinhai Zhu, Jian Cao. Modified maximum mechanical dissipation principle for rate-independent metal plasticity, ASME Journal of Applied Mechanics, 80(061020-1), 2013

[28] Bin Lu, Jun Chen*, Hengan Ou, Jian Cao. Feature-based tool path generation approach for incremental sheet forming process. Journal of Materials Processing Technology, 2013, 213(7):1221-1233

[29] Xifeng Li, Xin Chen, Baoyong Li, Nannan Chen, Jun Chen*. Grain refinement mechanism of Ti-55 titanium alloy by hydrogenation and dehydrogenation treatment, Materials Characterization, 157 (2019) 109919

[30] Feifei Zhang, Jun Chen*, Jieshi Chen, Jian Lu, Gang Liu, Shijian Yuan. Overview on constitutive modeling for hydroforming with the existence of through-thickness normal stress. Journal of Materials Processing Technology, 2012, 212(11): 2228-2237

[31] Haibo Li, Jun Chen*, Jimmy Yang. Experimental and numerical investigation of laminated steel sheet in V-bending process considering nonlinear visco-elasticity of polymer layer. Journal of Materials Processing Technology, 2012, 212(1): 36-45

[32] Dongkai Xu, Jun Chen*, Yucheng Tang, Jian Cao. Topology optimization of die weight reduction for high-strength sheet metal stamping. International Journal of Mechanical Sciences, 2012, 59(1): 73-82 ^[2]