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上海交通大学材料科学与工程学院导师教师师资介绍简介-庄新村

本站小编 Free考研考试/2021-01-02

姓名: 庄新村
职称: 教授
博导/硕导: 博导
所属二级机构: 塑性成形技术与装备研究院
通讯地址: 上海市华山路1954号国家模具CAD工程研究中心
邮编: 200030
E-mail: georgezxc@sjtu.edu.cn
联系电话: -8336

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 Françoisdistortional 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 modelingand 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 blankfor 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-assistedfine-blanking process for 304 stainless steel plates, MaterialsCharacterization, 2020, 166: 100452.
[5]W. Zhang, H.C. Yang, X.C. Zhuang, et al. Crack initiation predictioneliminating the influence of loading path change: Prediction strategy and modelvalidation, International Journal of Mechanical Sciences, 2020, 183: 105791.
[6]X.L. Sun, X.C. Zhuang, Y.Z. Wang, et al. Preshearing influences onsheet-bulk metal forming of aluminum gear, Journal of MaterialsProcessing Technology, 2020, 278: 116513.
[7]Y. Zhu, S.F. Zhu, X.C. Zhuang, et al. Die structure optimization foreliminating premature folding of sidewall upsetting with a controllabledeformation 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-inducededge passivation of fine-blanking punch, International Journal of AdvancedManufacturing Technology, 2019, 104: 4129-4141.
[9]S.F. Zhu, X.C. Zhuang, D.K. Xu, et al. Flange forming at an arbitrarytube location through upsetting with a controllable deformation zone, Journalof Materials Processing Technology, 2019, 273: 116230.
[10]X.L. Sun, X.C. Zhuang, F.C. Yang, et al. Reduction of die rollheight in duplex gears through a sheet-bulk metal forming method, Advances inManufacturing, 2019, 7: 42-51.
[11]Q.D, Zheng, X.C. Zhuang, Z. Zhao. State-of-the-art and future challengein 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 onsheet-bulk forming of duplex gear parts, International Journal of MechanicalSciences, 2018, 140: 51-59.
[13] X.C. Zhuang, Y.H. Meng, Z. Zhao. Evaluation of prediction errorresulting from using average state variables in the calibration of ductilefracture criterion, International Journal of Damage Mechanics, 2018, 27:1231-1251.
[14] X.C. Zhuang, W. Zhang, Y.L. Wu, et al. Comprehensive prediction methodfor die-roll height of fine-blanking components, The International Journal ofAdvanced Manufacturing Technology, 2018, 98: 2819-2829.
[15] X.C. Zhuang, Y. Ma, Z. Zhao. Fracture prediction under nonproportionalloadings by considering combined hardening and fatigue-rule-based damageaccumulation, International Journal of Mechanical Sciences, 2018, 150: 51-65.
[16]S.F. Zhu, X.C. Zhuang, Y. Zhu, et al. Thickening of cup sidewall throughsheet-bulk forming with controllable deformation zone, Journal of MaterialsProcessing Technology, 2018, 262: 597-604.
[17] X.C. Zhuang, S.M. Ma, Z. Zhao. Effect of particle size, fraction andcarbide banding on deformation and damage behavior of ferrite–cementite steelunder tensile/shear loads, Modelling and Simulation in Materials Science andEngineering, 2017, 25: 015007.
[18] X.C. Zhuang, S.M. Ma, Z. Zhao. A microstructure-based macro-micromulti-scale fine-blanking simulation of ferrite-cementite steels, InternationalJournal of Mechanical Sciences, 2017, 128-129: 414-427.
[19] X.C. Zhuang, Y.H. Meng, Z. Zhao. Parameter calibration of ductilefracture criterion considering computational efficiency and accuracy, ProcediaEngineering, 2017, 207: 2042-2047.
[20]Z.M. Yue, H. Badreddine, K. Saanouni, X.C. Zhuang, J. Gao. Numericalsimulation of sheet metal blanking based on fully coupledelstoplasticity-damage constitutive equations accounting for yield surfacedistortion-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 ductilefracture criterion under non-proportional loading condition, EngineeringFracture Mechanics, 2016, 165: 39-56.
[22] X.C. Zhuang, X.L. Sun, H. Xiang, et al. Compound deep drawing andextrusion process for the manufacture of geared drum, International Journal ofAdvanced Manufacturing Technology, 2016, 84(9): 2331-2345.
[23]X.L. Sun, S.F. Zhu, X.C. Zhuang, Z. Zhao. Numerical investigation ontooth filling of clutch drum forming processes, Production Engineering ResearchDevelopment, 2016, 10(1):25-35.
[24]S.M. Ma, X.C. Zhuang, Z. Zhao. Effect of particle size and carbide bandon 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 ultrasonicvibration assisted compression. Transaction of Nonferrous Metals Society ofChina, 2015, 25(7): 2352-2360.
[26] X.C. Zhuang, H. Xiang, T. Wang, et al. Determination of flow curve andplastic anisotropy of medium-thick metal plate: experiments and inverseanalysis. 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 geometricallyimperfect 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 6.8)
薄壁件渐进镦锻成形模具及成形方法(ZL 9.2)
非等高十字筋类件的复合弯曲成形工艺(ZL 5.0)
分步式加载的板料压缩剪切测试装置(ZL 4.2)
板料凸台抗剪强度测试装置(ZL 3.7)
变载荷挤压模具反顶装置(ZL 1.6)
测量金属热成形界面传热系数的装置及方法(ZL 6.7)
面向全应力三轴度范围的损伤模型参数标定方法(ZL 0.2)
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 4.2)
全光亮带带内孔加工的单工步挤压方法(ZL 6.1)

荣誉和奖励 上海交通大学“唐立新优秀****奖”(2019)
第七届“凯原十佳教师”提名奖(共5名,2017)
晨星-优秀青年****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****奖励计划”(B类计划)(2016)
晨星青年****奖励计划”优秀青年教师后备人才二等奖(2009)


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