2021年博士研究生招生入学考试工作已经展开,新东方在线考博频道将为广大2021考博考生发布转载各博士招生单位发布的2021年博士研究生招生简章、考博专业目录、考博参考书目、及导师联系方式,以下是哈尔滨工业大学2021年博士研究生导师信息:卫剑征。
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基本信息
卫剑征(Jianzheng Wei),博士(Ph.D),副教授(Associate Prof.),博士生导师(PhD Supervisor); 航天学院 复合材料与结构研究所暨特种环境复合材料技术国家级重点实验室(National Key Laboratory of Science and Technology on Advanced Composites in Special Environments, HIT, China) 科研项目:先后主持承担国家自然科学基金、中国博士后基金、CAST重大基金等项目、民用航天十二五预研子课题,并参加了国家重大专项等。 主要研究领域:先进柔性复合材料及力学和轻质飞行器结构力学. 主要研究兴趣: 1) 先进柔性复合材料-结构-功能一体化设计原理(Design principle on advanced flexible composite material-structure-function integrated); 2) 空间轻质结构折叠/展开动力学行为研究(Research on dynamic behavior of in-space lightweight folding/deployable structures); 3) 气固耦合力学(Gas-structures interaction); 4) 薄膜力学与柔性壳力学(Membrane and Flexible shell mechanics). |
我的新闻
| 新闻标题 | 充气式重力梯度杆在轨首次成功展开 |
| 发表时间 | 2015-03-14 |
发明了一种渐进式阻尼控制的充气伸展臂展开方法,负责研制了充气式重力梯度杆的初样和正样,并通过各项测试, 于2012年11月19日,在轨搭载发射成功,经过在轨空间环境卷曲压紧折叠收拢6个月以上,于2013年5月28日,在轨成功将2kg配重块通过充气伸展臂平稳、有序地展开到小卫星本体3m处位置,实现了重力梯度稳定功能。于2017年,圆满完成了在新技术验证卫星上的充气展开技术验证任务,首次实现了我国充气展开技术在航天工程中的应用。 | |
| 新闻标题 | 国内首个8mX8m的充气展开式太阳帆结构成功展开! |
| 发表时间 | 2015-03-14 |
采用4个5.6m长的充气伸展臂成功展开8mX8m的充气展开式太阳帆结构。 | |
荣誉称号
2020.7,获哈工大教学贡献奖(教学优秀奖)二等奖 2019.7,获黑龙江省高校微课教学比赛二等奖 2018.2,获教育部技术发明奖二等奖(排名1) 2017.7,获哈工大立德树人先进个人 标兵 荣誉称号 2016.7,获哈尔滨工业大学第六届青年教师教学基本功竞赛校级一等奖 2016.7,获“985工程”课程建设项目航天学院优秀课程一等奖 2016.6,获首届卓越大学联盟高校(E9)青年教师能力大赛三等奖 2015.9,获哈尔滨工业大学“三育人”先进工作者标兵荣誉称号 2015.7,获哈尔滨工业大学航天学院第九届青年教师课堂教学竞赛一等奖 2014.12,获哈尔滨工业大学“优秀专兼职学生工作者 标兵”荣誉称号 2014.10,获军队科技进步二等奖 2013.12,获哈尔滨工业大学“优秀专兼职学生工作者”荣誉称号 2013.12,获国防技术发明二等奖 2012.11,获军队科技进步三等奖 2012.7,获哈尔滨工业大学首届研究生课程青年教师教学竞赛二等奖 2011.5,获哈尔滨工业大学航天学院第六届青年教师课堂教学竞赛一等奖 |
教育经历
2008.7: 哈尔滨工业大学工程力学专业毕业,获工学博士学位 2004.7: 哈尔滨工业大学工程力学专业毕业,获工学硕士学位 2002.7:太原理工大学工程力学专业毕业, 获工学学士学位 |
工作经历
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主要任职
中国宇航学会第七届返回与再入专业委员会委员 中国力学学会会员(S030001160M) 中国宇航学会会员(B29 05 04304M) 美国AIAA学会会员(421536) 2014年中国浮空器大会组委会委员、责任编辑 |
研究领域
主要研究方向: (1)先进柔性复合材料-结构-功能一体化设计原理(Design principle on advanced flexible composite material-structure-function integrated); (2) 空间轻质结构折叠/展开动力学行为研究(Research on dynamic behavior of in-space lightweight folding/deployable structures); (3) 气固耦合力学(Gas-structures interaction); (4) 薄膜力学与柔性壳力学(Membrane and Flexible shell mechanics). 代表性论文 2020:WEI Jianzheng, ZHANG Pengfei, MA Ruiqiang, CHEN Xueyan, TAN Huifeng.Design and Dynamics of Large-scale Solar Arrays with Inflatable Mast,JOURNAL OF MECHANICAL ENGINEERING,2020,56(5):93-99 2020:Xianghai Jiang, Jianzheng Wei*, Yuxi Liu, Deployment Analysis of Aramid Fiber Reinforced Shape-Memory Epoxy Resin Composites, Engineered Science,2020 (Accept) 2020:Wang Chang-guo,WEI Jian-zheng,LIU Yu-yan, et.al.Some Advances in Technologies of Aerospace Flexible Deployable Structure and Their Applications,Journal of Astronatics,2020,41(6):761-769 2020:YU Jian-xin, WEI Jian-zheng*, TAN Hui-feng.Inflation Deployment Dynamics Analysis of Large Reflector,Journal of Astronatics,2020,41(8). 2020:Zhang Pengfei,Wei Jianzheng,Chen Xueyan,Tan Huifeng,Zhu Meifang.Analysis and Multi-objective Optimization for Buffer Performance of Heavy Landing Airbags,Journal of Vibration and Shock,2020(Accept) 2020:Wei, Jianzheng ; Yu, Jianxin; Tan, Huifeng; Wang, Weizhi; Eriksson, Anders. Design and testing of inflatable gravity-gradient booms in space, CEAS Space Journal, 2020,12(1):33-41; IF=1.260 2020:Xueyan Chen,Qingxiang Ji, Jianzheng Wei, Huifeng Tan,Jianxin Yu,Pengfei Zhang,Vincent Laude, Muamer Kadic. Light-weight shell-lattice metamaterials for mechanical shock absorption. International Journal of Mechanical Sciences, 2020,169: 105288, JCR Q1 IF=4.134 2019:Jianzheng Wei, Ruiqiang Ma, Hou Xue, Zhen Duo, Tan Huifeng. Analysis of the thermodynamical property of super-pressure balloons.Acta Mechanica, 2019, 230(4): 1355-1366,IF=2.166 2018:Jianzheng Wei, Xue Hou, Huifeng Tan & Yuyan Liu : Heat resistance investigation and mechanical properties of fabric coated with Al2O3 sol–gel, The Journal of The Textile Institute, 2018,109(1):8-16 IF= 1.063 2018:Chen, Xueyan ; Tan, Huifeng ; Wei, Jianzheng. Energy coefficient method for modeling nonlinear constitutive relations of lattice truss materials, Archive of Applied Mechanics, 2018,88(5):805-817 IF= 1.578 2018:Jianzheng Wei, Ruiqiang Ma, Yufei Liu, Jianxin Yu, Anders Eriksson, Huifeng Tan. Modal analysis and identification of deployable membrane structures,Acta Astronautica,2018(152):811-822,JCR Q1 IF= 2.482 2018:Ma ruiqiang, Wei JIanzheng, Tan Huifeng,Yang Zhihan. Modal analysis of inflated membrane cone considering pressure follower force effect. THIN-WALLED STRUCTURES,2018,132:596–603,JCR1 IF =3.488 2018:WEI Jianzheng*, LIN Qiuhong, LIN Guochang, TAN Huifeng.Advances and Key Scientific Problems in Deployable Sunshield Structures,Journal of National University of Defense Technology,2018,40(1):56-66 2018:MA Ruiqiang,WEI Jianzheng,TAN Huifeng*.Vibration modal analysis of inflatable self-supporting booms,Journal of Beijing University of Aeronautics and Astronautics,2018,44(3):526-534 2018:Jianzheng Wei, Jianxin Yu, Huifeng Tan, Weizhi Wang, Anders Eriksson.design and testing of inflatable gravity-gradient booms in space. 15th european Conference on Spacecraft Structures, Materials and Environmental Testing,28 May - 1 June 2018 ESA-ESTEC, Noordwijk, The Netherlands. 2017:Wei Jianzheng, Yu Lin, Jiang Yu, Tan Huifeng, zhang Jinxiu. Dynamics Testing and Simulation of Inflatable Deployable Membrane Antennas, VIII International Conference on Textile Composites and Inflatable StructuresSTRUCTURAL MEMBRANES 2017,9-11 Oct. 2017, Munich, Germany. 2017:Yu, Jianxin ; Tan, Huifeng ; Wei, Jianzheng.Dynamic Testing of an Inflatable Wrap-rib Reflector Antenna,Procedia Engineering, 2017,199:483-488 2017:Ma, Teng ; Tan, Huifeng ; Wei, Jianzheng.Pullout behavior of large-diameter collapsed double-walled carbon nanotubes. Journal of Wuhan University of Technology-Mater. Sci. Ed., 2017,32(5):1001-1007 IF=0.605 2016:Yu J.X,Wei J.Z, Tan H.F.Dynamic damage detection methods for airship frameworks structure,Acta Aeronaticaet Astronautica Sinica,2016,37(11):3385-3394. 2015:Jianzheng Wei , Huifeng Tan, Weizhi Wang , Xu Cao. Deployable dynamic analysis and on-orbit experiment for inflatable gravity-gradient boom, Advances in Space Research, 55 (2015):639–646 IF=1.976 2015:Cheng, Zheng Ai; Liu, Yufei; Wei, Jianzheng; Huang, Xiaoqi. Fold-deployment concept and compact structure design for solar sail,Proceedings of the International Astronautical Congress, IAC, v 9, p 6943-6953, 2015, 66th International Astronautical Congress 2015, IAC 2015: Space - The Gateway for Mankind's Future. 2014:Wei J.Z.,ma Ruiqiang, tan huifeng, song bo. Structure analysis of inflatable solar sails, Proceedings of the 2nd International Conference "Advanced Lightweight Structures and Reflector Antennas", TBilis,Oct.1-3,2014:138-145 2014:Jianzheng Wei, Huifeng Tan, Bo Song and Zhimin wan. Strength Testing of Fabric Composite Material and Impact Simulation for Airbag Landing System, Advanced Materials Research, 2014,1095:463-467 2013:Wei, Jian-Zheng; Tan, Hui-Feng; Wang, Wei-Zhi; He, Xiao-Dong.New trends in inflatable re-entry aeroshell, Source: Yuhang Xuebao/Journal of Astronautics, 2013, 34(7):881-890 2013:Yu, Jian-Xin; Wei, Jian-Zheng; Tan, Hui-Feng . Tests for thin film inflatable toruses, Zhendong yu Chongji/Journal of Vibration and Shock,2013,32(7):11-16. 2012: Jianzheng Wei, Huifeng Tan, Jianxin Yu, Xingwen Du. Numerical simulations for gas-structure interaction in inflated deployment of folded membrane boom. Theoretical & Applied Mechanics Letters, 2, 022004 (2012),IF=1.58 2011: Jianzheng Wei,Huifeng Tan, Changqing Miao,Xiaodong He.Experimental study of inflatable deployment dynamics of folded membrane booms,Lixue Xuebao/Chinese Journal of Theoretical and Applied Mechanics,2011, 43(1):202-207 2011:Jian-zheng Wei,Chang-qing. Miao,You-shan Wang, Xing-wen Du. Numerical Simulation for Deployment Dynamics of Lightweight Inflatable Solar Array.52nd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference 19th 4-7 April 2011, Denver, Colorado, AIAA 2011-1969. 2010:Jian-zheng Wei,Hui-feng Tan, Hong-wei Sun. Simulation and experiment for inflatable deployment of rolled booms. 51st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference. 12 - 15 April 2010, Orlando, Florida, UN. AIAA-2010-2580 |
1. 本科生课程(First level):变形体力学-I(52/72学时) 简介: 变形体力学A 是复合材料与工程及相关专业本科生的一门重要的专业基础课,该课程的主要内容有应用弹性力学、应用塑性力学。在学生学习完基础课对材料与结构的力学性能有一定了解后,进入专业课学习之前,进一步对变形体力学分析方法进行系统的学习,为更好地学习专业课打下坚实基础。本课程主要讲授平面问题的基本概念、基。本方程、基本解法,弹性力学一般原理、空间问题的基本概念与解答,能量原理,以及薄板小挠度弯曲问题的一般理论等。讲解弹性力学的基本概念和分析方法,研究弹性体在外界因素影响下的应力、应变和位移。结合具体的平面问题和空间问题进行学习和应用。研究变形体有弹性进入塑性的屈服条件,产生塑性的加载条件,以及分析塑性变形和应力特征的本构关系。通过本课程的学习,使学生对变形体力学的经典研究的内容有全面的了解,为后续课程的学习以及今后实际工程应用中奠定重要基础。 2.研究生学位课程( Second cycle):高等弹性理论(32学时)。 |
招生信息
博士研究生招生: 专业:工程力学 人数:1-2名/年 学制:4年 科研方向包括但不限于: 1) 先进柔性复合材料-结构-功能一体化设计原理; 2) 空间轻质结构折叠/展开动力学行为研究; 3) 气固耦合力学; 4) 薄膜力学与柔性壳力学. 读博期间提供充足的生活与科研经费,以及出国留学、交流的机会等。 欢迎力学学科、机械学科及宇航学科等研究生加入,希望能与您一起合作并助您如期毕业! 硕士生招生: 专业:工程力学 人数:1-2名/年 学制:2年 |
桃李满天
硕士毕业生情况:
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