陈章华
近期热点
资料介绍
个人简历
教育经历2002年在香港理工大学获得哲学博士学位 工作经历北京科技大学数理学院应用力学系任教研究领域
多尺度下材料的损伤与断裂分析,特殊有限元方法"科研项目2017044660101,20172. 国家自然科学基金面上项目,吸附对金属钝化膜结构与稳定性影响的计算模拟及实验研究近期论文
科研论文:1. S. Wang, Z.H. Chen, C.F. Dong, Tearing Failure of Ultra-Thin Sheet-Metal Involving Size Effect in Blanking Process: Analysis Based on Modified GTN Model,International Journal of Mechanical Sciences, Volume 133, 2017, Pages 288-302. (SCI,分区:2区,2016影响因子:2.884)。2. P.J. Zhao, Z.H. Chen, C.F. Dong, Investigation and prediction of tearing failure during extrusion based on a modified shear damage model,Mechanics of Materials, 2017, 112: 28-39. (SCI,分区:2区,2016影响因子:2.651)。3. 张博宇,陈章华,基于应变梯度理论和面积坐标有限元的管线钢微观组织尺寸效应研究,机械工程学报,2017, 53(2):74-83, (EI期刊论文)。4. P.J. Zhao, Z.H. Chen, C.F. Dong, Damage and Failure Analysis of AZ31 Alloy Sheet in Warm Stamping Processes,Journal of Materials Engineering and Performance, 2016, 25(7): 2702-2710. (SCI,分区:4区,2016影响因子:1.09)。5. P.J. Zhao, Z.H. Chen, C.F. Dong, Experimental and numerical analysis of micromechanical damage for DP600 steel in fine-blanking process,Journal of Materials Processing Technology, 2016, 236: 16-25. (SCI,分区:2区,2016影响因子:3.878)。6. P.J. Zhao a, Z.H. Chen, C.F. Dong, Failure analysis based on microvoids damage model for DP600 steel on in-situ tensile tests, Engineering Fracture Mechanics 154 (2016) 152–168. (SCI,分区:3区,2016影响因子:2.02)。7. Zhang J, Chen Z H, Dong C F. Simulating Intergranular Stress Corrosion Cracking in AZ31 Using Three-Dimensional Cohesive Elements for Grain Structure[J]. Journal of Materials Engineering and Performance, 2015, 24(12): 4908-4918. (SCI,分区:4区,2016影响因子:1.09)。8. P.J. Zhao a, Z.H. Chen, C.F. Dong, Failure Analysis of Thermal Stamping of Magnesium Alloy Sheet Based on An Anisotropic Damage Model,Journal of Materials Engineering and Performance, 2014, 23(11):pp4032-4041 (SCI,分区:4区,2016影响因子:1.09)。9. 王瑞泽,陈章华等,基于Gurson模型的镁合金板材温热冲压成形研究,北京科技大学学报, 2014, 36(4), pp 459-466, .( EI期刊论文)。10. Rui-ze Wang, Zhang-hua Chen, Yu-jie Li, and Chao-fang Dong, Failure Analysis of Warm Forging of AZ31 Magnesium Alloy Sheet Based on the Extended GTN Damage Model,International Journal of Minerals, Metallurgy and Materials, 2013, 20, pp 1198-1207 (SCI,分区:4区,2016影响因子:0.882)。11. Y. Wen, Z.H. Chen, Y. Zang,Failure Analysis of a Sheet Metal Blanking Process Based on Damage Coupling Model, Journal of Materials Engineering and Performance, 2013, 22(11), pp3288-3295. (SCI,分区:4区,2016影响因子:1.09)。12.蒋成钢,陈章华,臧勇,镁合金板材温热冲压过程的各向异性损伤与失效分析,机械工程学报, 2013, 49(16):62-69, ( EI期刊论文)。13. 陈章华,陈磊,纪洪广.基于偏最小二乘法的地应力场拟合.北京科技大学学报,2013,35(1):1-7, ( EI期刊论文)。14. 陈章华,李贞德,基于MSG理论的超薄梁弯曲问题的假设应变有限元分析,辽宁工程技术大学学报,2008.15.陈章华,余顺利,基于应变梯度理论的假设应变有限元方法,北京科技大学学报, Vol.29, No.8, 807-810, (2007).16. 杜文学,陈章华等,预应力索梁结构形成过程分析,北京科技大学学报, Vol.29, No.7, 676-679, (2007).17.郭 瑞,陈章华,班怀国,受拉圆孔两侧裂纹扩展的EFG 动态模拟,辽宁工程技术大学学报,Vol.25, 218-221, (2006).18. 肖久梅,陈章华等,液体丁氰橡胶及纳米SiO2对环氧树脂的增韧机理,北京科技大学学报, Vol.27, No.2, 218-221, (2005).19. Z.H. Chen,C.Y. Tang and T.C. Lee , An investigation of tearing failure in fine-blanking process using coupled thermo-mechanical method, International Journal of Machine Tools & Manufacture,Vol44, 155-165, (2004).20. Z.H. Chen,J.J. Jing and J.M. Xiao, Numerical simulation of strain localization and damage evolution in large plastic deformation using mixed finite element method, Journal of University of Science and Technology Beijing (Mineral, Metallurgy & Materials), Vol1,No3,pp273-277, (2004).21. Z.H. Chen,C.Y. Tang and T.C. Lee, Simulation of strain localization in metal forming processes using bilinear mixed u/p elements, Journal of Materials Processing Technology ,Vol.147, pp286–291, (2004).22. Z.H. Chen,L.C. Chan, T.C. Lee and C.Y. Tang An investigation on the formation and propagation of shear band in fine-blanking process, Journal of Materials Processing Technology ,Vol.138, pp610–614, (2003)23. Z.H. Chen,C.Y. Tang,T.C. Lee and L.C. Chan Numerical simulation of fine-blanking process using a mixed finite element method, International Journal of Mechanical Sciences, Vol.44, No.7, pp.1309-1333, (2002).24. 特殊非协调大变形有限元法在金属成型中的数值模拟,北京科技大学学报, Vol.24, No.4, 436-440,(2002).25. Z.H. Chen,T.C. Lee and C.Y. Tang, Numerical simulation of a sheet metal extrusion process by using thermal-mechanical coupling EAS FEM, Journal of University of Science and Technology Beijing (Mineral, Metallurgy & Materials) (English Edition), Vol.19, pp378-382, (2002)26.Z.H. Chen,C.Y. Tang,L.C. Chan and T.C. Lee Simulation of the sheet metal extrusion process by the enhanced assumed strain finite element method, Journal of Materials Processing Technology, Vol.91, No.1-3, pp.250-256, (2000).27. Z.H. Chen,C.Y. Tang and T.C. Lee Numerical simulation of non-adiabatic shear banding in metal forming process using finite element method, Key Engineering Materials, Vol.177, pp.553-558, (2000).28. Z.H. Chen,C.Y. Tang,T.C. Lee and L.C. Chan A study of strain localization in fine-blanking process using large deformation finite element method, Journal of Materials Processing Technology, Vol.86, No1-3. pp.163-167, (1999).29. Z.H. Chen,C.Y. Tang,T.C. Lee and L.C. Chan Large deformation finite element analysis of strain localization in fine-blanking process, Metals and Materials, Vol.4, No.3, pp.529-532 (1998).30. 徐明秀,陈章华,徐敏强,樊久铭,疲劳过程中磁记忆信号变化的机理,机械工程学报,2014,50(4):53~5931. Mingxiu XU, Zhanghua CHEN, Minqiang XU, Micro-Mechanism of Signal Variation of Metal Magnetic Memory during Fatigue, International Journal of Minerals, Metallurgy and Materials, 2014, 21(3): 259~26532. 徐明秀,陈章华,徐敏强,疲劳载荷下的磁记忆信号特征研究,北京科技大学学报,2013,35(12):1615~1621 相关热点