教材: 1) 吴向东李卫东主编,《液压与气压传动》,北航出版社,2018。 部分学术论文: 1) Yisheng Zhang, Xiangdong Wu*, Bobin Guan, Zhe Zhao, Min Wan Application and practical validation of topology optimization technology for the frame of biaxial tensile testing machine.Structural and Multidisciplinary Optimiza- tion, 2020, Vol. 61, Issue 3. 2) Cui, Xuexi, Wu, Xiangdong*, Wan, Min, Ma, Bolin, Zhang, Yanling. A novel constitutive model for stress relaxation of Ti-6Al-4V alloy sheet. International Journal of Mechanical Sciences.,2019, Vol.161-162. 3) Cui, Xuexi ; Wan, Min; Ma, Bolin ; Wu, Xiangdong*, Han, Jinquan, Quenching by immersion considering boiling heat transfer, International Journal of Thermal Sciences,2019,139:303-311. 4) Long Anlin, Wan Min,Wang Wenping, Wu Xiangdong*, Cui, Xuex. Forming methodology and mechanism of a novel sheet metal forming technology - electromagnetic superposed forming (EMSF),International Journal of Solids and Structures.2018,151:165-180 5) B.L. Ma, M. Wan, Z.Y.Cai, W.N Yuan, C. Li, X.D. Wu*,W. Liu. Investigation on the forming limits of 5754-0 aluminum alloy sheet with the numerical Marciniak-Kuczynski approach. International Journal of Mechanical Sciences,2018,142: 420-431. 6) Long Anlin, Wan Min,Wang Wenping,Wu Xiangdong*, Cui, Xuex.3D modeling strategies for simulating electromagnetic superposed forming processes,International Journal of Mechanical Sciences,2018,138(4):409-426. 7) B.L. Ma, M. Wan, Zhang,H.,X.L.Gong, X.D. Wu*, Evaluation of the forming limit curve of medium steel plate based on non-constant through-thickness normal stress.International Journal of Manufacturing Process.2018,33:175-183. 8) Zhengyang Cai, Min Wan, Zhigang Liu, Xiangdong Wu*, Bolin Ma. Evolving hardening behaviors of high strength steel sheets under altered loading paths[C]. 12th International Conference on Technology of Plasticity, ICTP2017. Procedia Engineering 207(2017) 131–136. 9) B.L. Ma, M. Wan, X.J. Li, X.D. Wu*, S.K. Diao, Evaluation of limit strain and temperature history in hot stamping of advanced high strength steels (AHSS), International Journal of Mechanical Sciences, Volumes 128–129, August 2017, P607-613. 10) Zhengyang Cai, Min Wan, Xiangdong Wu*, Bolin Ma,Cheng Cheng. Thermal-mechanical behaviors of dual-phase steel sheet under warmforming conditions. International Journal of Mechanical Sciences,2017,126:79-94. 11) Zhengyang Cai, Min Wan, Zhigang Liu, Xiangdong Wu*, Bolin Ma. Approximate method formulating plastic potentials of porous sheet metals with non-quadratic anisotropy[J]. International Journal of Mechanical Sciences,2017, 123:198-213. 12) Boin Ma,Zhigang Liu,Zheng,Jiang,Xiangdong Wu*.Prediction of forming limit in DP590steel sheet forming:an extended fracture ctriterion, Materials & Design, 2016, 96(15):401-408. 13) BoLin Ma, XiangDong Wu, XinJun Li, Min Wan, ZhengYang Cai.Investigation on the hot formability of TA15 titanium alloy sheet formability. Materials & Design.2016,94(3):9-16. 14) 程诚,刁可山,吴向东*等. DP590高强钢板温热环境下屈服准则适用性分析.机械工程学报,2016, 52(4):29-35. 15) 蒋政,刁可山,吴向东,万敏,一种韧性断裂模型的理论研究和实验验证.材料科学与工艺,2015,23(3):24-28. 16) BoLin Ma, WenNan Yuan, XiangDong Wu*, XinJun Li, Min Wan. Study on Temperature Distribution of HSS in Hot FLD Test. Applied Thermal Engineering,2015,89(5):144-155. 17) 孙永娜,吴向东,万敏,基于时效校形的TB5合金蠕变本构模型建立,塑性工程学报,2013,20(1):76-79. 18) 李亚男,万敏,吴向东,基于应变非接触测量的裂纹拼接,锻压技术,2013,38(6):111-115. 19) 朱阳春,吴向东,万敏,刁可山,超高强钢板V形弯曲回弹影响因素有限元分析,锻压技术,2012,37(5):31-34. 20) 吴向东,万敏,王文平.各向异性板材等效应力-等效应变曲线的建立及分析,材料科学与工艺,2009,17(2):163-165. 21) BoLin Ma, WenNan Yuan, XiangDong Wu, XinJun Li, Min Wan. Study on Temperature Distribution of HSS in Hot FLD Test. Applied Thermal Engineering,2015,89(5):144-155. 22) Xiangdong Wu, Min Wan, Xianbin Zhou. Biaxial tensile testing of cruciform specimen under complex loading paths. Journal of Materials Processing Technologh, , 2005, 168(1): 181-183. 23) 吴向东,万敏,李盛. 便携式板料应变测量系统GMAS,锻压技术,2005,增刊:208-210. 24) 吴向东,万敏,周贤宾. 汽车薄钢板应力应变曲线及屈服轨迹的研究.力学学报,2004,11(1):150-156. 25) Yong Yu, Min Wan, Xiang-dong Wu, Xian-bin Zhou. Design of a cruciform biaxial tensile specimen for limit strain analysis by FEM. Journal of Materials Processing Technology,2002,123(1):67~70. |
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