|
|
||||||||||||||||
| 从事专业: | 材料加工工程 | ||||||||||||||||
| 学习与工作简历: | 学习简历: 1998.09-2002.07 上海交通大学塑性成形工程系 学士 2002.09-2008.05 上海交通大学塑性成形工程系 博士(硕博连读)
工作简历: 2008.05-2011.12 上海交通大学塑性成形工程系,讲师 2012.04-2012.10 德国多特蒙德大学(IUL),博士后 2012.01-2017.12 上海交通大学(材料学院塑性成形技术与装备研究院),副研究员 2017.12-现在 上海交通大学(材料学院塑性成形技术与装备研究院),教授 |
||||||||||||||||
| 研究方向一 | 精冲与板锻成形工艺智能设计 | ||||||||||||||||
| 研究方向二 | 金属塑性变形与损伤行为表征 | ||||||||||||||||
| 研究情况 | 负责国家自然科学基金面上项目和青年项目、科技部重点研发计划子课题、国家科技重大专项子课题以及国内外企业横向课题30多项,参加国家自然科学基金面上项目、国家科技重大专项及地方政府攻关项目等10多项。累计发表SCI/EI收录论文50余篇,具有授权发明专利15项,参与制修订国家/行业标准12项;主译完成《冷成形与精冲》、《产品设计中的材料选择》、《面向产品设计的制造技术手册》等多本专业书籍。 | ||||||||||||||||
| 讲授主要课程 | 本科生课程: [1] 工程学导论(公共基础课) [2] 材料塑性加工新技术
研究生课程: [1] 学术英语(公共基础课) [2] 工程材料失效分析与制作设计(专业前沿课) [3] 知识工程及其在塑性成形中的应用(专业选修课)
|
||||||||||||||||
| 教学研究 | |||||||||||||||||
| 代表性论文、论著 | 译著: [1] 面向产品设计的制造技术手册,机械工业出版社,2020 [2] 产品设计中的材料选择,机械工业出版社,2017 [3] 冷成形与精冲,机械工业出版社,2008
代表性论文: [1] W. Zhang, X.C. Zhuang, Y, Zhang, et al. An enhanced François distortional yield model: Theoretical framework and experimental validation, International Journal of Plasticity, 2020, 127: 102643 [2] Y.K. Xu, Y. Zhang, X.C. Zhuang, et al. Numerical modeling and anvil design of high-speed forging process for railway axles, International Journal of Material Forming, 2020, DOI: 10.1007/s12289-020-01590-9. [3] S.F. Zhu, X.C. Zhuang, Y. Yang, et al. Investigation of a tailored blank for the elimination of forging laps during cup sidewall upsetting, International Journal of Advanced Manufacturing Technology, 2020, 109: 2311-2324. [4] Q.D, Zheng, X.C. Zhuang, J. Hua, et al. Formability of the heat-assisted fine-blanking process for 304 stainless steel plates, Materials Characterization, 2020, 166: 100452. [5] W. Zhang, H.C. Yang, X.C. Zhuang, et al. Crack initiation prediction eliminating the influence of loading path change: Prediction strategy and model validation, International Journal of Mechanical Sciences, 2020, 183: 105791. [6] X.L. Sun, X.C. Zhuang, Y.Z. Wang, et al. Preshearing influences on sheet-bulk metal forming of aluminum gear, Journal of Materials Processing Technology, 2020, 278: 116513. [7] Y. Zhu, S.F. Zhu, X.C. Zhuang, et al. Die structure optimization for eliminating premature folding of sidewall upsetting with a controllable deformation zone, International Journal of Advanced Manufacturing Technology, 2019, 105: 1411-1424. [8] Q.D, Zheng, X.C. Zhuang, Z.S. Gao, et al. Investigation on wear-induced edge passivation of fine-blanking punch, International Journal of Advanced Manufacturing Technology, 2019, 104: 4129-4141. [9] S.F. Zhu, X.C. Zhuang, D.K. Xu, et al. Flange forming at an arbitrary tube location through upsetting with a controllable deformation zone, Journal of Materials Processing Technology, 2019, 273: 116230. [10] X.L. Sun, X.C. Zhuang, F.C. Yang, et al. Reduction of die roll height in duplex gears through a sheet-bulk metal forming method, Advances in Manufacturing, 2019, 7: 42-51. [11] Q.D, Zheng, X.C. Zhuang, Z. Zhao. State-of-the-art and future challenge in fine-blanking technology, Production Engineering - Research and Development, 2019, 13: 61-70. [12] X.L. Sun, X.C. Zhuang, Z. Zhao. Investigation of anisotropy effects on sheet-bulk forming of duplex gear parts, International Journal of Mechanical Sciences, 2018, 140: 51-59. [13] X.C. Zhuang, Y.H. Meng, Z. Zhao. Evaluation of prediction error resulting from using average state variables in the calibration of ductile fracture criterion, International Journal of Damage Mechanics, 2018, 27: 1231-1251. [14] X.C. Zhuang, W. Zhang, Y.L. Wu, et al. Comprehensive prediction method for die-roll height of fine-blanking components, The International Journal of Advanced Manufacturing Technology, 2018, 98: 2819-2829. [15] X.C. Zhuang, Y. Ma, Z. Zhao. Fracture prediction under nonproportional loadings by considering combined hardening and fatigue-rule-based damage accumulation, International Journal of Mechanical Sciences, 2018, 150: 51-65. [16] S.F. Zhu, X.C. Zhuang, Y. Zhu, et al. Thickening of cup sidewall through sheet-bulk forming with controllable deformation zone, Journal of Materials Processing Technology, 2018, 262: 597-604. [17] X.C. Zhuang, S.M. Ma, Z. Zhao. Effect of particle size, fraction and carbide banding on deformation and damage behavior of ferrite–cementite steel under tensile/shear loads, Modelling and Simulation in Materials Science and Engineering, 2017, 25: 015007. [18] X.C. Zhuang, S.M. Ma, Z. Zhao. A microstructure-based macro-micro multi-scale fine-blanking simulation of ferrite-cementite steels, International Journal of Mechanical Sciences, 2017, 128-129: 414-427. [19] X.C. Zhuang, Y.H. Meng, Z. Zhao. Parameter calibration of ductile fracture criterion considering computational efficiency and accuracy, Procedia Engineering, 2017, 207: 2042-2047. [20] Z.M. Yue, H. Badreddine, K. Saanouni, X.C. Zhuang, J. Gao. Numerical simulation of sheet metal blanking based on fully coupled elstoplasticity-damage constitutive equations accounting for yield surface distortion-induced anisotropy, International Journal of Damage Mechanics, 2017, 26(7): 1061-1079. [21] X.C. Zhuang, T.T. Wang, Z. Zhao. Calibration and application of ductile fracture criterion under non-proportional loading condition, Engineering Fracture Mechanics, 2016, 165: 39-56. [22] X.C. Zhuang, X.L. Sun, H. Xiang, et al. Compound deep drawing and extrusion process for the manufacture of geared drum, International Journal of Advanced Manufacturing Technology, 2016, 84(9): 2331-2345. [23] X.L. Sun, S.F. Zhu, X.C. Zhuang, Z. Zhao. Numerical investigation on tooth filling of clutch drum forming processes, Production Engineering Research Development, 2016, 10(1):25-35. [24] S.M. Ma, X.C. Zhuang, Z. Zhao. Effect of particle size and carbide band on the flow behavior of Ferrite-Cementite steel, Steel Research International, 2016, 87(11):1489-1502. [25] X.C. Zhuang, J.P. Wang, H. Zheng, et al. Forming mechanism of ultrasonic vibration assisted compression. Transaction of Nonferrous Metals Society of China, 2015, 25(7): 2352-2360. [26] X.C. Zhuang, H. Xiang, T. Wang, et al. Determination of flow curve and plastic anisotropy of medium-thick metal plate: experiments and inverse analysis. Journal of Iron & Steel Research, International, 2015, 22(6):506-512. [27] X.C. Zhuang, C. Xu, Z. Zhao, Experimental and numerical investigation of failure mode in geometrically imperfect DP590 steel, SCIENCE CHINA Technological Sciences, 2015, 58(3): 476-484. |
||||||||||||||||
| 毕业博士生数 | |||||||||||||||||
| 毕业硕士生数 | |||||||||||||||||
| 参加学术团体、任何职务 | 国际冷锻组织(International Cold Forging Group,常务理事) 中国兵工学会精密成形工程专业委员会(委员) 中国机械工程学会塑性工程分会青年工作委员会(委员) 上海市模具技术协会(副理事长) |
||||||||||||||||
| 申请专利 | 离合器毂体渐进式拉挤成形装置及方法(ZL 201610223506.8) 薄壁件渐进镦锻成形模具及成形方法(ZL 201610428769.2) 非等高十字筋类件的复合弯曲成形工艺(ZL 201510073575.0) 分步式加载的板料压缩剪切测试装置(ZL 201310041834.2) 板料凸台抗剪强度测试装置(ZL 201110339463.7) 变载荷挤压模具反顶装置(ZL 201010152231.6) 测量金属热成形界面传热系数的装置及方法(ZL 201510012066.7) 面向全应力三轴度范围的损伤模型参数标定方法(ZL 201310043870.2) 中厚板材料压缩试验辅助装置及流动应力曲线测定方法(ZL 201210259974.2) 全光亮带带内孔加工的单工步挤压方法(ZL 201110391706.1) |
||||||||||||||||
| 荣誉和奖励 | 上海交通大学“唐立新优秀学者奖”(2019) 第七届“凯原十佳教师”提名奖(共5名,2017) 晨星-优秀青年学者奖励计划” (晨星-副教授:B类计划,2017) 上海交通大学“优秀班主任”(2017) SMC-晨星青年学者奖励计划”(B类计划)(2016) 晨星青年学者奖励计划”优秀青年教师后备人才二等奖(2009)
|
||||||||||||||||
| 其他 |
