个人简历

个人简介
Personal Profile
吴承伟，1957年生，1987年底获得清华大学工学博士学位，1988-1989在大连理工大学做博士后,师从钱令希院士,之后一直在大连理工大学任教。 1990年3月破格晋升副教授，1992年10月破格晋升正教授。1994年至2002年，在美国和加拿大工作。2003年回国定居和工作。 现为大连理工大学运载工程与力学学部副部长（负责科研与学科建设工作），工程力学系、工业装备结构分析国家重点实验室教授、博士生导师。
吴承伟教授曾先后在工程力学、计算力学、接触力学、生物力学、生物材料、制造工艺力学等学科交叉点上开展研究工作，最近几年集中在工程结构强度与可靠性、生物材料与仿生力学研究领域。研究工作以力学为主导，围绕工业装备、先进材料、微纳制造等开展交叉研究。累计发表学术论文200余篇，其中被SCI收录130余篇，被国际同行他引2000余次，国内他引300余次，H因子28；与他人合著专著4部；获得国家发明专利8项。曾获得中组部人事部授予的中国青年科技奖（1994）、辽宁省青年技术拔尖人才（1997）、大连市优秀专家（1997和2007）等荣誉称号，国务院特殊均贴获得者。
近年来潜心学生教育与培养，有2名博士研究生获得辽宁省优秀博士论文奖和国家百篇优秀博士论文提名奖，1名硕士研究生获得辽宁省优秀硕士论文奖。
教育经历
1984.9 1987.12 清华大学 机械学 博士
1982.9 1984.8 清华大学 机械学 硕士
1978.9 1982.8 鞍山钢铁学院 冶金机械
工作经历
1992.10 至今 大连理工大学 研究员
1990.8 1992.9 大连理工大学 副研究员
1987.9 1990.8 大连理工大学 讲师
1975.9 1977.12 新金县建筑工程公司 建筑工人
团队成员
Research Group
生物与纳米力学
本团队共有教授3人，副教授3人，工程技术人员2人。目前在读研究生总数40人。
团队目前主要研究领域： （1）航空航天工程中的力学问题；（2）工业装备结构强度、优化设计、疲劳与可靠性；（3）能源装备与结构的力学问题；（4）生物材料与仿生力学；（5）重大疾病的力学诊断与治疗方法；（6）复杂结构制造工艺力学。
专利
一种减小主轴—叶轮装配应力和主轴弯曲变形的设计方法
一种设有环向联通槽的H形浅腔动静压混合水润滑径向轴承
一种水凝胶拉伸试样的制备与夹持测试方法
聚乙烯醇水凝胶及其制备方法
一种使用磁性纳米颗粒修饰原子力显微镜探针的方法
微小型不锈钢长纤维过滤毡
著作成果
生物材料力学与仿生学
无伸缩缝超大地下交通枢纽设计与建造关键技术
科研项目
新型单片电堆力学性能实验与数值建模, 企事业单位委托科技项目, 2018/03/01-2020/03/10, 进行
大型燃料电池电堆封装力学研究, 企事业单位委托科技项目, 2017/08/25-2019/09/01, 完成
铅冷快堆燃料棒包壳管表面多功能微纳结构仿生优化设计, 国家自然科学基金项目, 2017/08/17, 进行
沈鼓核主泵多功能全流量试验台建设项目, 企事业单位委托科技项目, 2017/05/23-2019/06/01, 完成
燃料棒与燃料组件创新设计, 企事业单位委托科技项目, 2017/01/06-2018/05/30, 完成
脑组织的粘弹性力学行为与损伤机理, 国家自然科学基金项目, 2015/08/18, 进行
授课信息
现代力学进展导论1 /2019-2020 /春学期 /16课时 /1.0学分 /1040141000
材料的力学行为 /2019-2020 /春学期 /32课时 /2.0学分 /1040141020
材料的力学行为 /2019-2020 /春学期 /32课时 /2.0学分 /1040141020
现代力学进展导论1 /2019-2020 /春学期 /16课时 /1.0学分 /1040141000
现代实验力学 /2019-2020 /秋学期 /3.0学分 /2040130079
现代实验力学 /2019-2020 /秋学期 /3.0学分 /2040130079
科研奖励
辽宁省科学技术奖
其他奖励
领军人才 （2019年）
工程力学（钱令希力学创新实验班）专业运创1601班被评为大连高校2017-2018学年度先进班集体 （2018年）
大连理工大学优秀硕士研究生论文指导教师 （2017年）
大连理工大学优秀硕士论文指导教师 （2016年）
辽宁省优秀教师 （2015年）
国家百篇优博论文(孔祥清)提名奖导师 （2013年）

研究领域

航空航天结构中的力学问题
大型工业装备结构强度、寿命与可靠性预报
大型燃料电池电堆封装力学与可靠性设计
核电装备与结构的热机耦合疲劳与仿生优化设计
特殊环境下的结构密封力学问题
高性能、超精密轴承的设计、制造与性能预报
生物材料与仿生力学
重大疾病的力学诊断与治疗技术"研究领域
工程力学，生物力学，固体力学"

近期论文

[1]Han, Xiao,Chao, Yuexing,Yang, Peng,Li, Xiaoyang,Zhang, Wei,Jin, Yong,Wu, Chengwei.Strength prediction of adhesively bonded ferrite pillar-tin bronze plate under axial shear loading[J],JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY,2020,34(6):616-634
[2]Han, Xiao,Jin, Yong,da Silva, Lucas F. M.,Costa, Marcelo,Wu, Chengwei.On the effect of adhesive thickness on mode I fracture energy - an experimental and modelling study using a trapezoidal cohesive zone model[J],Journal of Adhesion,2020,96(5):490-514
[3]Li, Heng,Wu, Cheng-wei,Wang, Sen,Zhang, Wei.Mechanically strong poly (vinyl alcohol) hydrogel with macropores and high porosity[J],MATERIALS LETTERS,2020,266
[4]Lu, Yongtao,Zhao, Wenying,Cui, Zhentao,Zhu, Hanxing,Wu, Chengwei.被广泛使用的三重周期最小表面基于支架的各向异性弹性行为[J],Journal of the Mechanical Behavior of Biomedical Materials,2019,99:56-65
[5]Zhang, Wei,Yu, Xiaogang,Li, Heng,Dong, Dili,Zuo, Xudong,Wu, Cheng-wei.Magnetic nanoparticles with low Curie temperature and high heating efficiency for self-regulating temperature hyperthermia[J],JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS,2019,489
[6]Hu, P.,Akhmet, G.,Wu, C. W.,Han, X.,Chao, Y. X.,Yu, Y.,Orazbayeva, A..Characterisation on the influence of curing history on the mechanical performance of adhesively bonded corrugated sandwich structures[J],THIN-WALLED STRUCTURES,2019,142(,SI):37-51
[7]张伟,吴承伟.一种可注射水凝胶在定点、靶向给药中的应用[A],十二届全国生物力学大会,2018
[8]Wu, Chengwei,Wei, Chengxiong,Jin, Xin,Akhtar, Riaz,Zhang, Wei.Carbon spheres as lubricant additives for improving tribological performance of polyetheretherketone[J],JOURNAL OF MATERIALS SCIENCE,2019,54(6):5127-5135
[9]金鑫,吴承伟.Preparation of Biomimetic Hydrogel Drug Carrier and Drug Release Characteristics[A],International Symposium of Bionic Innovation Design & Industrialization,2019
[10]Zhang Wei,Jin Xin,Li Heng,Zhang Run-Run,Wu Cheng-Wei.Injectable and body temperature sensitive hydrogels based on chitosan and hyaluronic acid for pH sensitive drug release.[J],Carbohydrate polymers,2018,186:82-90
[11]Zhang Wei,Jin Xin,Li Heng,Zhang Run-Run,Wu Cheng-Wei.Data on the experiments of temperature-sensitive hydrogels for pH-sensitive drug release and the characterizations of materials[J],Data in brief,2018,17:419-423
[12]Zhang, Wei,Liu, Li-fu,Xiong, Yue-jiao,Liu, Yi-fan,Yu, Sheng-bo,Wu, Cheng-wei,Guo, Weihong.Effect of in vitro storage duration on measured mechanical properties of brain tissue[J],SCIENTIFIC REPORTS,2018,8(1):1247
[13]韩世凯,吴承伟. Polarized Pass Band for Longitudinal Waves in Solid Phononic Crystals[J],Journal of Physics Communications,2018,1(5):55026-55026
[14]吴承伟,张伟.Carbon spheres as lubricant additives for improving tribological performance of polyetheretherketone[J],Journal of Materials Science,2018,54:5127-5135
[15]吕永涛,刘越,吴承伟.Investigating the longitudinal effect of ovariectomy on bone properties using a novel spatiotemporal approach[J],Annals of Biomedical Engineering,2018,45(5):747-761
[16]吕永涛,吴承伟.Influence of vitamin D status and mechanical loading on the morphometric and mechanical properties of the mouse tibia[J],Journal of Medical and Biological Engineering,2018,10:1-1
[17]刘博,吴承伟.大型燃料堆结构优化设计与抗震分析[A],2018年全国固体力学大会,2018
[18]张伟,吴承伟.磁感应热疗用纳米材料的研发[J],2018年中国生物医学工程联合学术年会,2018
[19]韩啸,吴承伟.基于内聚力模型参数识别的结构胶粘剂II型断裂特性固化工艺影响研究[A],2018
[20]Zhang, Wei,Zuo, Xudong,Niu, Ying,Wu, Chengwei,Wang, Shuping,Guan, Shui,Silva, S. Ravi P..Novel nanoparticles with Cr3+ substituted ferrite for self-regulating temperature hyperthermia[J],NANOSCALE,2017,9(37):13929-13937
[21]Liu, B.,Wei, M. Y.,Liu, L. F.,Wu, C. W..Fatigue Life Analysis of the Proton Exchange Membrane Fuel Cell Stack[J],FUEL CELLS,2017,17(5):682-689
[22]Wu, C.W.,Liu, B.,Wei, M.Y.,Liu, L.F..Fatigue Analysis of Proton Exchange Membrane Fuel Cell Stacks Based on Structural Stress Distribution[J],Journal of Physics: Conference Series,2017,842(1)
[23]Zhang, W.,Liu, Y.-F.,Liu, L.-F.,Niu, Y.,Ma, J.-L.,Wu, C.-W..Effect of vitro preservation on mechanical properties of brain tissue[J],Journal of Physics: Conference Series,2017,842(1)
[24]吕永涛,刘越,吴承伟.脊椎段老龄化对椎骨皮质骨力学行为的影响分析[J],生物医学工程学杂志,2017,34(03):371-376
[25]Jiang, L.,Wu, C.W..Topology optimization of energy storage flywheel[J],STRUCTURAL AND MULTIDISCIPLINARY OPTIMIZATION,2017,55(5):1917-1925
[26]Ma, Guojun,Wu, Chengwei.Microneedle, bio-microneedle and bio-inspired microneedle: A review[J],JOURNAL OF CONTROLLED RELEASE,2017,251:11-23
[27]Zhang, Wei,Zhang, Run-run,Jiang, Cheng-gang,Wu, Cheng-wei.Effect of pillar height on the wettability of micro-textured surface: Volume-of-fluid simulations[J],INTERNATIONAL JOURNAL OF ADHESION AND ADHESIVES,2017,74:64-69
[28]Jiang, L.,Zhang, W.,Ma, G. J.,Wu, C. W..Shape optimization of energy storage flywheel rotor[J],STRUCTURAL AND MULTIDISCIPLINARY OPTIMIZATION,2017,55(2):739-750
[29]张丽敏,余小刚,贾凯云,吴承伟,张伟,陈震,Ravi Silva.磁感应热疗恶性肿瘤技术研究进展[J],科技导报（北京）,2017,35(10):44-51
[30]Zhang, Wei,Zhang, Run-run,Wu, Fan,Feng, Liang-liang,Yu, Sheng-Bo,Wu, Cheng-wei.Differences in the viscoelastic features of white and grey matter in tension[J],JOURNAL OF BIOMECHANICS,2016,49(16):3990-3995
[31]Liu, B.,Liu, L. F.,Wei, M. Y.,Wu, C. W..Vibration mode analysis of the proton exchange membrane fuel cell stack[J],JOURNAL OF POWER SOURCES,2016,331:299-307
[32]Zhang, Wei,Feng, Liang-liang,Wu, Fan,Zhang, Run-run,Wu, Cheng-wei.Micro/nano-particle decorated metal wire for cutting soft matter[J],NANOTECHNOLOGY,2016,27(35):355708
[33]Zhang, Wei,Zhang, Run-run,Feng, Liang-liang,Li, Yang,Wu, Fan,Wu, Cheng-wei.Mechanical Response of Brain Stem in Compression and the Differential Scanning Calorimetry and FTIR Analyses[J],JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME,2016,83(9)
[34]Zhang, Wei,Zuo, Xudong,Zhang, Dongmei,Wu, Chengwei,Silva, S. Ravi P..Cr3+ substituted spinel ferrite nanoparticles with high coercivity[J],NANOTECHNOLOGY,2016,27(24):245707
[35]张伟,张睿,吴承伟.培养学生自主学习能力的几点建议[J],广州化工,2016,3:173-174
[36]Liu, B.,Wei, M. Y.,Zhang, W.,Wu, C. W..Effect of impact acceleration on clamping force design of fuel cell stack[J],JOURNAL OF POWER SOURCES,2016,303:118-125
[37]Liu, B.,Wei, M. Y.,Ma, G. J.,Zhang, W.,Wu, C. W..Stepwise optimization of endplate of fuel cell stack assembled by steel belts[J],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2016,41(4):2911-2918
[38]张伟,吴承伟.Effect of pillar height on the wettability of micro-textured surface：Volume-of-Fluid simulations[A],An International Conference of Microfluidics, Nanofluidics and Lab-on-a-Chip,2016,18(18)
[39]Zheng, Jun-Gang,Zuo, Xu-Dong,Wu, Cheng-Wei,Zhang, Wei.Temperature effect on crack density and crystalline phase of electrodeposited chromium[J],OPTOELECTRONICS AND ADVANCED MATERIALS-RAPID COMMUNICATIONS,2016,10(1-2):123-126
[40]张伟,冯亮亮,吴樊,吴承伟.超软脑组织切割过程数值模拟[J],科学通报,2016,61(23):2613-2619
[41]张伟,马国军,吴承伟.Shape optimization of energy storage flywheel rotor[J],Struct Multidisc Optim,2016,55(2):739-750
[42]张伟,吴承伟.How birds avoid traumatic brain injuries[A],5TH International Conference of Bionic Engineering,2016,23-23
[43]张伟,郭杏林,吴承伟.Effect of surface structure of flywheel on drag reduction[A],2016 International Conference on Advances in Materials Research (ICAM 16),2016
[44]吴承伟.Mechanical response of a large fuel cell stack to vibration and fatigue lifetime estimate[A],2016,167-172
[45]张伟,马国军,吴承伟.Shape optimization of energy storage flywheel rotor in nuclear pump[A],2016,97-102
[46]马国军,高俊福,郭峰,谭鑫,吴承伟.压缩机主轴-叶轮摩擦性能及过盈装配主轴弯曲变形研究[J],大连理工大学学报,2015,55(6):575-581
[47]冯亮亮,吴樊,左旭东,吴承伟,张伟.碳纳米管功能化尼龙在介电润湿技术中的应用[J],固体力学学报,2015,S1:170-173
[48]马国军,胡光举,吴承伟.核主泵主轴表面热疲劳分析与寿命评估[J],固体力学学报,2015,S1:145-151
[49]姜露,崔瑞芹,吴承伟.储能飞轮转子的形状优化设计[A],2015中国力学大会,2015,131-131
[50]张伟,蒋化南,刘博,吴承伟.质子交换膜燃料电池堆封装载荷优化研究进展[J],电源技术,2015,39(7):1546-1549
[51]Zhao, Zi-Long,Zhao, Hong-Ping,Ma, Guo-Jun,Wu, Cheng-Wei,Yang, Kai,Feng, Xi-Qiao.Structures, properties, and functions of the stings of honey bees and paper wasps: a comparative study[J],BIOLOGY OPEN,2015,4(7):921-928
[52]Fan, Junling,Guo, Xinglin,Wu, Chengwei,Zhao, Yanguang,Guo, Qiang.Stress assessment and fatigue behavior evaluation of components with defects based on the finite element method and lock-in thermography[J],PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART C-JOURNAL OF MECHANICAL ENGINEERING SCIENCE,2015,229(7,SI):1194-1205
[53]郭强,郭杏林,樊俊铃,吴承伟.基于固有耗散的FV520B钢高周疲劳性能研究[J],金属学报,2015,51(04):400-406
[54]吴樊,冯亮亮,吴兆天,张伟,吴承伟.碳纳米管物理分散技术研究进展[A],2015,216-221
[55]Wu, C.W.,Liu, B.,Wei, M.Y.,Zhang, W..Mechanical Response of a Large Fuel Cell Stack to Impact: A Numerical Analysis[J],FUEL CELLS,2015,15(2):344-351
[56]冯亮亮,吴樊,裴玢,张伟,吴承伟.碳纳米管化学分散法的研究进展[A],2015,210-215
[57]Fan, J.,Guo, X.,Wu, C.,Crupi, V.,Guglielmino, E..Influence of Heat Treatments on Mechanical Behavior of FV520B Steel[J],EXPERIMENTAL TECHNIQUES,2015,39(2):55-64
[58]Zhang, W.,Zuo, X. D.,Wu, C. W..SYNTHESIS AND MAGNETIC PROPERTIES OF CARBON NANOTUBE-IRON OXIDE NANOPARTICLE COMPOSITES FOR HYPERTHERMIA: A REVIEW[J],REVIEWS ON ADVANCED MATERIALS SCIENCE,2015,40(2):165-176
[59]吴承伟.An energy method for rapid evaluation of high-cycle fatigue parameters based on intrinsic dissipation, International[J],Journal of Fatigue,2015,80(1):136-144
[60]吴承伟.Investigation on coming out phenomenon of the shaft from the sleeve by 2-D plate model approach[J],Int J Fracture Fatigue and Wear,2015,3(4):195-199
[61]张伟,吴承伟.Effect of impact acceleration on clamping force design of fuel cell stack[J],Journal of Power Sources,2015,303(4):118-125
[62]张伟,吴承伟.Micro/Nano Textured Metal Wire for Cutting Biological Soft Tissue with Small Force[A],he 2 nd China-Germany symposium Biomimetics: From Animal Sensory Systems to Lomocation,2015,3-4
[63]张伟,吴承伟.Surface Thermal Shock Protection Inspired by Bionic-Microstructure[A],International Workshop of Bionic Engineering,2015
[64]张伟,吴承伟.Mechanical response of a large fuel cell stack to dynamic impact[J],Fuel cells,2015,15(2):344-351
[65]吴承伟.Residual stress generation mechanism for hot strip composite tolls during quenching process[J],Int J Fracture Fatigue and Wear,2015,3(4):38-42
[66]程拼拼,蒋成刚,吴承伟.仿生二级微沟槽表面减阻特性数值模拟[J],中国科技论文,2014,8:940-943
[67]Zhang, Wei,Zhang, Rui,Wu, Cheng-Wei.Chemiresistive Ammonia Sensor Based on Cotton Yarn[A],7th Textile Bioengineering and Informatics Symposium (TBIS 2014) / 5th Asian Protective Clothing Conference (APCC 2014),2014,19-22
[68]Zhu ZhaoDan,Zhang Wei,Wu ChengWei.Energy conversion in woodpecker on successive peckings and its role on anti-shock protection of brain[J],SCIENCE CHINA-TECHNOLOGICAL SCIENCES,2014,57(7):1269-1275
[69]Zuo X.,Zhang W.,Ma G.,Wu C..Dispersion of carbon nanotubes with organic dyes[A],Nanotechnology 2014: Graphene, CNTs, Particles, Films and Composites - 2014 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2014,2014,1:37-40
[70]Zhu, Zhaodan,Wu, Chengwei,Zhang, Wei.Frequency Analysis and Anti-Shock Mechanism of Woodpecker's Head Structure[J],JOURNAL OF BIONIC ENGINEERING,2014,11(2):282-287
[71]刘博,金浩,周平,吴承伟,李洪武,孙占春.非圆胀圈型密封环的设计方法与性能分析[J],北京理工大学学报,2014,34(3):245-249
[72]Zhang, Wei,Stolojan, Vlad,Silva, S. Ravi. P.,Wu, Cheng Wei.Raman, EELS and XPS studies of maghemite decorated multi-walled carbon nanotubes[J],SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY,2014,121:715-718
[73]Zhang, Wei,Wu, Cheng Wei.Dyeing of multiple types of fabrics with a single reactive azo disperse dye[J],CHEMICAL PAPERS,2014,68(3):330-335
[74]Zhang, W.,Ma, G. J.,Wu, C. W..ANTI-FRICTION, WEAR-PROOF AND SELF-LUBRICATION APPLICATION OF CARBON NANOTUBES[J],REVIEWS ON ADVANCED MATERIALS SCIENCE,2014,36(1):75-88
[75]张伟,吴承伟.碳纳米管增强铝复合材料减摩耐磨性研究进展[J],兵器材料科学与工程,2014,37(3):118-121
[76]郭强,郭杏林,樊俊铃,侯培军,吴承伟.基于固有耗散的材料疲劳性能快速评估方法[J],力学学报,2014,46(6):931-939
[77]左旭东,吴承伟,张伟.碳纳米管功能化尼龙在介电层上电润湿技术中的应用[A],2014年全国固体力学学术大会论文集中国力学学会固体力学专业委员会,2014,1-1
[78]张伟,吴承伟.Effect of clamping load on the performance of PEMFC stack and its optimization design[J],J. Fuel Cell Sci. Technol.,2014,11(2):21012-21012
[79]吴承伟,张伟.Microstructure and Mechanical Property of Turtle Shell[A],Sino-Germany Symposium on Biomimetics,2014,1-5