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个人简介

杨卫,浙江大学教授、博士生导师,浙江大学发展委员会主席,固体力学专家,中国科学院院士,美国工程院外籍院士,发展中国家科学院院士、司库。1985年获得美国布朗大学博士学位。曾任国务院学位委员会办公室主任,教育部学位管理与研究生教育司司长,2006年至2013年担任浙江大学校长,2013年至2018年担任国家自然科学基金委员会主任。2013年至2018年当选第十二届全国人大常委会委员。2018年当选为第十三届全国政协常委会委员。2018年增选为美国工程院外籍院士。 多次获得国内外科技奖励和荣誉奖,包括国家自然科学二等奖一项、三等奖一项(均为第一完成人),国家教委科技进步一等奖两项、二等奖一项,中国青年科学家奖,何梁何利科学与技术进步奖,中国青年科技奖,周培源力学奖,浙江大学“竺可桢奖”,Brown Engineering Alumni Medal,国际工程科学学会的Eric Reissner Medal,美国ASME的Warner T.Koiter Medal、Calvin W.Rice Lecture Award。 工作经历 2018年–至今 浙江大学,航空航天学院,教授(2013年至今) 浙江大学发展委员会主席 浙江大学交叉力学中心主任 2013年–2018年 国家自然科学基金委员会主任 2006年–2013年 浙江大学校长 2004年–2006年 清华大学,航天航空学院,教授 国务院学位委员会办公室主任兼教育部学位管理与研究生教育司司长 清华大学学术委员会主任(2004-2006) 清华大学兼职教授(2005年至今) 1985年–2004年 清华大学,工程力学系,讲师(1985),副教授(1986),教授(1989) 清华大学工程力学系主任(1997-2004) 教育部“长江学者”特聘教授(1999-2004) 教育背景 1985年 获得博士学位美国布朗大学固体与结构力学专业 1981年 获得硕士学位清华大学固体力学专业 1976年 获得学士学位西北工业大学锻压专业 荣誉学位 香港理工大学,荣誉博士,2011 美国布朗大学,荣誉博士,2012 英国布里斯托大学,荣誉博士,2013 希腊亚里士多德大学,荣誉博士,2017 美国西北大学,荣誉博士,2017 教学信息 浙江大学本科生全校通识课程:《力学导论》。 出版著作 学术著作(7) 出版教材(1) 1.Yang W,Zhao P and Wang HT,An Overview of Mechanics,Science Press,Shanghai,2020.11. 学术专著(3) 2.Yang W,Mechatronic Reliability,THU-Springer-Verlag,Berlin,2002. 3.Yang W,Macroscopic and Microscopic Fracture Mechanics,Press of National Defence,1995. 4.Yang Wei and Lee W.B.,Mesoplasticity and Its Applications,Springer-Verlag,1993. 主编著作(3) 5.Gerberich W.W.and Yang W.eds,Interfacial and Nanoscale Failure,Vol.8 of Comprehensive Structural Integrity,Elsevier Science,Oxford,March,2003. 6.Hong Y.S.,Yang W.and Wu X.R.,Guest Editors,Fatigue and Fracture of Engineering Materials and Structures,vol.25,no.5,2002. 7.Yang W.and Hong Y.S.,Guest Editors,Fatigue and Fracture of Engineering Materials and Structures,vol.21,no.11,1998. 教学与课程 浙江大学本科生全校通识课程:《力学导论》 《力学导论》慕课:中国大学MOOC平台课程链接 课程概述 力学是关于力、运动和变形的科学,研究自然界和工程中复杂介质的宏/微观力学行为,揭示机械运动及其与物理、化学、生物学过程的相互作用规律,是构成人类科学知识体系的重要组成部分。本课程是一门文化素质类课程,目标是提供一种工程类的博雅教育,为不同背景的选课者提供能够通行于不同人群之中的价值观和方法论。本课程前半段将由杨卫院士授课,对力学进行高屋建瓴的全局式介绍,让大家对力学的概念和范畴产生明确的概念,明确力学在现代社会发展中不可或缺的作用;将重点介绍科技前沿领域中的一些最新力学研究进展,特别是有关生物医学、柔性电子、机器人、能源、航空航天及航海的相关力学知识和亮点成果,扩大学生的知识面,开阔学生的视野,激发学生的创新精神;后半段则由赵沛副教授授课,将通过力学专题或案例介绍,引入力学问题讨论,提升学生对力学这门工程科学的认识与理解,培养力学思维,培养分析问题、解决问题的综合素质和能力。 课程大纲 01 第一周力学往事(杨卫院士) 第一讲什么是力学? 第二讲墨子与亚里士多德 第三讲从阿基米德到达·芬奇 第四讲近代科学的诞生 第五讲20世纪之前的力学(上) 第六讲20世纪之前的力学(下) 第七讲哥廷根应用力学学派 第八讲空天三代 第九讲工程科学的涌现 第十讲中国力学学会 02 第二周力学今生(杨卫院士) 第一讲航空与宇航:歼20 第二讲航空与宇航:大飞机 第三讲航空与宇航:乘波体 第四讲航空与宇航:风洞与推进 第五讲航空与宇航:飞行器结构 第六讲建工与防灾(上) 第七讲建工与防灾(下) 第八讲能源与机器人 第九讲力学的新战场 03 第三周力学未来(杨卫院士) 第一讲牛顿力学之批判:量子化 第二讲牛顿力学之批判:相对论 第三讲牛顿力学之批判:引力波 第四讲牛顿力学之批判:质量 第五讲牛顿力学之批判:暗物质 第六讲力学的未解之惑(上) 第七讲力学的未解之惑(中) 第八讲力学的未解之惑(下) 第九讲力学3.0(上) 第十讲力学3.0(中) 第十一讲力学3.0(下) 04 第四周力学世界观(赵沛副教授) 第一讲知识、技术与科学(上) 第二讲知识、技术与科学(下) 第三讲科学的精神(上) 第四讲科学的精神(下) 第五讲数学推动科学(上) 第六讲数学推动科学(下) 第七讲从亚里士多德到牛顿(上) 第八讲从亚里士多德到牛顿(下) 第九讲拉格朗日-哈密顿力学 第十讲相对论世界观(上) 第十一讲相对论世界观(下) 第十二讲量子论世界观(上) 第十三讲量子论世界观(下) 第十四讲力学世界观 05 第五周飞行的梦想(赵沛副教授) 第一讲什么是流体 第二讲升力与阻力(上) 第三讲升力与阻力(下) 第四讲湍流与涡旋 第五讲从风筝到动力飞行(上) 第六讲从风筝到动力飞行(下) 第七讲飞机的机翼(上) 第八讲飞机的机翼(下) 第九讲战斗机与大飞机(上) 第十讲战斗机与大飞机(下) 06 第六周工业的脚步(赵沛副教授) 第一讲固体力学简介 第二讲材料力学基础(一) 第三讲材料力学基础(二) 第四讲材料力学基础(三) 第五讲材料力学基础(四) 第六讲人类材料史 第七讲从铁到钢(上) 第八讲从铁到钢(下) 第九讲微纳电子器件 第十讲纳米材料 第十一讲柔性电子器件 第十二讲结构与尺度律 07 第七周交叉的力学(赵沛副教授) 第一讲软物质(上) 第二讲软物质(下) 第三讲生物力学(上) 第四讲生物力学(下) 第五讲数据动力学 第六讲机器学习与机器人 奖励与荣誉 Warner T.Koiter Medal,美国机械工程师学会(ASME),2017 Calvin Rice Lecture Award,美国机械工程师学会(ASME),2012 Eric Reissner Medal,国际工程科学学会,2011 周培源力学奖,周培源基金会,2011 Brown Engineering Medal,美国布朗大学,2009 何梁何利奖,何梁何利基金会,2008 国家自然科学奖二等奖(第一完成人),2005 全国五一劳动奖章,2003 国家教委科技进步一等奖两项、二等奖一项 国家自然科学奖三等奖(第一完成人),1995 中国青年科学家奖,1994 全国优秀教师奖章,教育部,1993 中国青年科技奖,中国科协,1988

研究领域

断裂力学、微纳米力学、材料力学 力电耦合失效 结构完整性评价 航空航天技术

断裂力学、微纳米力学、材料力学 力电耦合失效 结构完整性评价 航空航天技术 STM期刊(Science, technology,medicine publishing),研究生教育

近期论文

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2020 1.Han,ZL;Wang,P;Mao,GY;Yin,TH;Zhong,DM;Yiming,BRB;Hu,XC;Jia,Z;Nian,GD;Qu,SX;Yang,W,Dual pH-Responsive Hydrogel Actuator for Lipophilic Drug Delivery,ACS APPLIED MATERIALS&INTERFACES,12:10,12010-12017,MAR 11 2020.|PDF 2.Fu,YM;Lu,HT;Nian,GD;Wang,P;Lin,N;Hu,XC;Zhou,HF;Yu,HH;Qu,SX;Yang,W,Size-dependent inertial cavitation of soft materials,JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS,137,103859,APR 2020.|PDF 3.Wu,TH;Yin,TH;Hu,XC;Nian,GD;Qu,SX;Yang,W.A Thermochromic Hydrogel for Camouflage and Soft Display,ADVANCED OPTICAL MATERIALS,8:9,2000031,MAY 2020.|PDF 4.Zhu,Q;Huang,QS;Guang,C;An,XH;Mao,SX;Yang,W;Zhang,Z;Gao,HJ;Zhou,HF;Wang,JW.,Metallic nanocrystals with low angle grain boundary for controllable plastic reversibility,NATURE COMMUNICATIONS,11:1,JUN 18 2020.|PDF 5.Nie,AM;Bu,YQ;Huang,JQ;Shao,YC;Zhang,YZ;Hu,WT;Liu,JB;Wang,YB;Xu,B;Liu,ZY;Wang,HT;Yang,W;Tian,YJ.Direct observation of room-temperature dislocation plasticity in diamond.MATTER,2020.02.011.|PDF 6.Wang,P;Bu,YQ;Liu,JB;Li,QQ;Wang,HT;Yang,W,Atomic deformation mechanism and interface toughening in metastable high entropy alloy,MATERIALS TODAY,37,64-73,JUL-AUG 2020.|PDF 7.Guan,WM;Yuan,J;Wang,YF;Zhang,HY;Lv,H;Yang,H;Zhu,T;Fang,YT;Liu,JB;Wang,HT;Yang,W.Inhomogeneous ablation behaviors and failure mechanism of copper cathode in air,SCIENCE CHINA-TECHNOLOGICAL SCIENCES,10.1007/s11431-020-1606-9,JUL 2020.|PDF 8.Zhong,DM;Xiang,YH;Liu,JJ;Chen,Z;Zhou,HF;Yu,HH;Qu,SX;Yang,W.A constitutive model for multi network elastomers pre-stretched by swelling,EXTREME MECHANICS LETTERS,40,100926,OCT 2020.|PDF 9.Xiang,YH;Zhong,DM;Rudykh,S;Zhou,HF;Qu,SX;Yang,W.A Review of Physically Based and Thermodynamically Based Constitutive Models for Soft Materials,JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME,87:11,110801,NOV 1 2020.|PDF 10.Liu,JJ;Qu,SX;Suo,ZG;Yang,W.Functional Hydrogel Coatings,National Science Review.OCT 05 2020.|PDF 11.Guan,WM;Yuan,J;Lv,H;Zhu,T;Fang,YT;Liu,JB;Wang,HT;Tang,ZG;Yang,W.Chromium,a promising cathode candidate for homogeneous arc erosion in air,JOURNAL OF PHYSICS D-APPLIED PHYSICS,54:2,025304,JAN 14 2021.|PDF 2019 12.Yang,Wei;Wang,HongTao;Li,TieFeng;X-Mechanics-An endless frontier,SCIENCE CHINA-PHYSICS MECHANICS&ASTRONOMY,62:1,014601,JAN 2019.|PDF 13.Peng,SY;Wei,YJ;Jin,ZH;Yang,W.Supersonic Screw Dislocations Gliding at the Shear Wave Speed,PHYSICAL REVIEW LETTERS,122:4,045501,JAN 29 2019.|PDF 14.Bu,YQ;Li,ZM;Liu,JB;Wang,HT;Raabe,D;Yang,W.Nonbasal Slip Systems Enable a Strong and Ductile Hexagonal-Close-Packed High-Entropy Phase,PHYSICAL REVIEW LETTERS,122:7,075502,FEB 22 2019.|PDF 15.Yin,TH;Wu,L;Wu,TH;Mao,GY;Nian,GD;Chen,Z;Hu,XC;Wang,P;Xiang,YH;Yu,HH;Qu,SX;Yang,W.Ultrastretchable and conductive core/sheath hydrogel fibers with multifunctionality,JOURNAL OF POLYMER SCIENCE PART B-POLYMER PHYSICS,57:5,272-280,MAR 1 2019.|PDF 16.Hu,XC;Nian,GD;Liang,XY;Wu,L;Yin,TH;Lu,HT;Qu,SX;Yang,W.Adhesive Tough Magnetic Hydrogels with High Fe3O4 Content,ACS APPLIED MATERIALS&INTERFACES,11:10,10292-10300,MAR 13 2019.|PDF 17.Rao,P;Li,TF;Wu,ZL;Hong,W;Yang,XX;Yu,HH;Wong,TW;Qu,SX;Yang,W.Ductile'Ice':Frozen hydrogels with high ductility and compressive yielding strength,EXTREME MECHANICS LETTERS,28,43-49,APR 2019.|PDF 18.Chen,Z;Zhao,DH;Liu,BH;Nian,GD;Li,XK;Yin,J;Qu,SX;Yang,W.3D Printing of Multifunctional Hydrogels,ADVANCED FUNCTIONAL MATERIALS,29:20,1900971,MAY 16 2019.|PDF 19.Zhong,Danming;Liu,Junjie;Xiang,Yuhai;et al.Effect of Partition on the Mechanical Behaviors of Soft Adhesive Layers,JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME,86:6,061003,JUN 2019.|PDF 20.Xiang,Yuhai;Zhong,Danming;Wang,Peng;et al.A physically based visco-hyperelastic constitutive model for soft materials,JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS,128,208-218,JUL 2019.|PDF 21.Yuan,Yongshuai;Li,Xiaoyan;Yang,Wei.Low-angle grain boundary structures and size effects of nickel nanolaminated structures,JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS,130,280-296,SEP 2019.|PDF 22.Zhong,DM;Xiang,YH;Yin,TH;Yu,HH;Qu,SX;Yang,W.A physically-based damage model for soft elastomeric materials with anisotropic Mullins effect,INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES,176,121-134,NOV 30 2019.|PDF 23.Li,TF;Zou,ZA;Mao,GY;Yang,XX;Liang,YM;Li,C;Qu,SX;Suo,ZG;Yang,W,Agile and Resilient Insect-Scale Robot,SOFT ROBOTICS,6:1,133-141,FEB 1 2019.|PDF 24.Nie,AM;Bu,YQ;Li,PH;Zhang,YZ;Jin,TY;Liu,JB;Su,Z;Wang,YB;He,JL;Liu,ZY;Wang,HT;Tian,YJ;Yang,W,Approaching diamond's theoretical elasticity and strength limits,NATURE COMMUNICATIONS,10,5533,DEC 4 2019.|PDF 25.Yang,Wei,Long march for healthy research ecology,NATIONAL SCIENCE REVIEW,6:5,855-855,SEP 2019.|PDF 2018 26.Liu,JB;Jin,YB;Fang,XY;Chen,CX;Feng,Q;Liu,XW;Chen,YZ;Suo,T;Zhao,F;Huang,TL;Wang,HT;Wang,X;Fang,YT;Wei,YJ;Meng,L;Lu,J;Yang,W.Dislocation Strengthening without Ductility Trade-off in Metastable Austenitic Steels,SCIENTIFIC REPORTS,8,46938,JAN 29 2018.|PDF 27.Jing,W.Q.;Fang,F.;Yang,W.,Strengthening of electromechanical properties for poly(vinylidene fluoride-trifluoroethylene)films under tailored electric cycling,JOURNAL OF APPLIED POLYMER SCIENCE,135:9,45926,MAR 5 2018.|PDF 28.Yang,XX;An,CR;Liu,ST;Cheng,TY;Bunpetch,V;Liu,YX;Dong,SR;Li,SJ;Zou,XH;Li,TF;Yang,W.Soft Artificial Bladder Detrusor,ADVANCED HEALTHCARE MATERIALS,7:6,1701014,MAR 21 2018.|PDF 29.Fang,KY;Fang,F;Wang,SW;Yang,W;Sun,W;Li,JF.Hybridizing CNT/PMMA/PVDF towards high-performance piezoelectric nanofibers,JOURNAL OF PHYSICS D-APPLIED PHYSICS,51:26,265305,JUL 4 2018.|PDF 30.Fang,F.;Jing,W.Q.;Yang,W.,High performance electrospinning fiberous membranes for infrared stealth camouflage,INFRARED PHYSICS&TECHNOLOGY,93,130-135,SEP 2018.|PDF 31.Wang,P;Shao,YC;Wang,HT;Yang,W.Accurate interatomic force field for molecular dynamics simulation by hybridizing classical and machine learning potentials,EXTREME MECHANICS LETTERS,24,1-5,OCT 2018.|PDF 2017 32.Wang,P.;Xu,S.;Liu,J.;Li,X.;Wei,Y.;Wang,H.;Gao,H.;Yang,W.Atomistic simulation for deforming complex alloys with application toward TWIP steel and associated physical insights,JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS,98,290-308,JAN 2017.|PDF 33.Li,Tiefeng;Li,Guorui;Liang,Yiming;et al.,Fast-moving soft electronic fish,SCIENCE ADVANCES,3:4,e1602045,APR 2017.|PDF 2016 34.Liu,JB;Jin,YB;Fang,XY;Chen,CX;Feng,Q;Liu,XW;Chen,YZ;Suo,T;Zhao,F;Huang,TL;Wang,HT;Wang,X;Fang,YT;Wei,YJ;Meng,L;Lu,J;Yang,W,Dislocation Strengthening without Ductility Trade-off in Metastable Austenitic Steels,SCIENTIFIC REPORTS,6,35345,OCT 14 2016.|PDF 35.Yang,W.,Boost basic research in China.Nature 534,467-469,2016.|PDF 36.Yang,X.X.,Li,G.R.,Cheng,T.Y.,Zhao,Q.,Ma,C.X.,Xie,T.,Li,T.F.,Yang,W.,Bio-Inspired Fast Actuation by Mechanical Instability of Thermo-responding Hydrogel Structures.Journal of Applied Mechanics-Transactions of the ASME 83,2016.|PDF 2015 37.Mao,G.Y.,Huang,X.Q.,Liu,J.J.,Li,T.F.,Qu,S.X.,Yang,W.Dielectric elastomer peristaltic pump module with finite deformation.Smart Materials and Structures 24,2015.|PDF 38.Zhou,H.F.,Li,X.Y.,Wang,Y.,Liu,Z.S.,Yang,W.,Gao,H.J.,Torsional Detwinning Domino in Nanotwinned One-Dimensional Nanostructures.Nano Letters 15,6082-6087,2015.|PDF 39.Jing,W.Q.;Fang,F.;Yang,W.Enhanced magnetoelectric coupling for embedded multiferroic composites via planar compressive stress Smart Materials and Structures 24:2,025014,FEB 2015.|PDF 2014 40.Li,T.F.;Zou,Z.N.;Mao,G.Y.;Qu,S.X.;et al.Electromechanical Bistable Behavior of a Novel Dielectric Elastomer Actuator,JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME,81:4,041019,10.1115/1.4025530,APR 2014.|PDF 41.Zhou,H.F.;Zhong,C.;Cao,Q.P.;et al.Non-localized deformation in metallic alloys with amorphous structure,ACTA MATERIALIA,68:15,32-41,APR 2014.|PDF 42.Wang,P.;Wang,H.T.;Yang,W.,Two-dimensional ferromagnetic iron crystals constrained by graphene edges:a first principles study,RSC ADVANCES,4:33,17008-17014,2014.|PDF image.png 43.Poo,M.M.,Wang,L.,Yang,W.,A new face at Natural Science Foundation of China-An interview with NSFC President Wei Yang.National Science Review 1,157-160,2014.|PDF 44.Wang,P.,Wang,H.,Yang,W.,Anomalous high adsorption energy of H2O on fluorinated graphenes:a first principles study.Physical Chemistry Chemical Physics 16,20464-20470,2014.|PDF 45.Zhou,H.F.,Li,X.Y.,Qu,S.X.,Yang,W.,Gao,H.J.,A Jogged Dislocation Governed Strengthening Mechanism in Nanotwinned Metals.Nano Letters 14,5075-5080,2014.|PDF 2013 46.Wang,H.T.;Feng,Q.;Cheng,Y.C.;Yao,Y.B.;Wang,Q.X.;Li,K.;Schwingenschogl,U.;Zhang,X.X.;Yang,W.,Atomic Bonding between Metal and Graphene.JOURNAL OF PHYSICAL CHEMISTRY C,117:9,4632-4638,MAR 7 2013.|PDF 47.Dong,C.Z.;Zhu,W.P.;Zhao,S.Y.;et al.Evolution of Pt Clusters on Graphene Induced by Electron Irradiation,JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME,80:4,040904,JUL 2013.|PDF 48.Wang,H.T.,Feng,Q.,Cheng,Y.C.,Yao,Y.B.,Wang,Q.X.,Li,K.,Schwingenschlogl,U.,Zhang,X.X.,Yang,W.,Atomic Bonding between Metal and Graphene.Journal of Physical Chemistry C 117,4632-4638,MAR 7 2013.|PDF 49.Zhou,H.F.;Qu,S.X.;Yang,W.An atomistic investigation of structural evolution in metallic glass matrix composites,INTERNATIONAL JOURNAL OF PLASTICITY,44,147-160,MAY 2013.|PDF 50.Fang,F.;Zhou,Y.Y.;Xu,Y.T.;Jing,W.Q.;Yang,W.,Magnetoelectric coupling of multiferroic composites under combined magnetic and mechanical loadings,SMART MATERIALS AND STRUCTURES,22:7,JUL 2013.|PDF 51.Fang,F.;Luo,X.;Yang,W.;Domain Structure Evolution and Polarization Degradation of[101]-Oriented 0.74Pb(Mg1/3Nb2/3)O3-0.26PbTiO3 Single Crystal underCyclic Electric Loadings,JOURNAL OF THE AMERICAN CERAMIC SOCIETY,96:1,228-233,JAN 2013.|PDF 52.Fang,F.;Zhou,Y.Y.;Yang,W.In-situ SEM study of temperature dependent tensile behavior of wrought molybdenum,INTERNATIONAL JOURNAL OF REFRACTORY METALS&HARD MATERIALS,41,35-40,NOV 2013.|PDF 53.Yang,W.Research Integrity in China,SCIENCE,342:6162,1019-1019,NOV 29 2013.|PDF 54.Li,T.F.;Keplinger,C.;Baumgartner,R.;Yang,W.,Suo,Z.G.,Giant voltage-induced deformation in dielectric elastomers near the verge of snap-through instability,JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS,61:2,611-628,FEB 2013.|PDF 2012 55.Nie A.M.;Liu J.B.;Wang P.;et al.Nanofingers pulled from bulk silver,SCRIPTA MATERIALIA,66:5,247-249,MAR 2012.|PDF 56.Fang F.;Xu Y.T.;Yang W.Magnetoelectric coupling of laminated composites under combined thermal and magnetic loadings,JOURNAL OF APPLIED PHYSICS,111:2,023906,JAN 15 2012.|PDF 57.Zhu W.P.;Wang H.T.;Yang W.,Evolution of graphene nanoribbons under low-voltage electron irradiation,NANOSCALE,4:15,4555-4561,2012.|PDF 58.Zhu,W.P.;Wang,H.T.;Yang,W.,Orientation-and microstructure-dependent deformation in metal nanowires under bending,ACTA MATERIALIA,60:20,7112-7122,DEC 2012.|PDF 59.Wang H.T.;Wang Q.X.;Cheng Y.C.;et al,Doping Monolayer Graphene with Single Atom Substitutions,NANO LETTERS,12:1,141-144,JAN 2012.|PDF 60.Wang,H.T.,Li,K.;Cheng,Y.C;Wang,Q.X.;Yao,Y.B.;Schwingenschlogl,U.;Zhang,X.X.;Yang,W.,Interaction between single gold atom and the graphene edge:A study via aberration-corrected transmission electron microscopy,NANOSCALE,4:9,2920-2925,2012.|PDF 61.Wang,H.T.;Li,K.;Yao,Y.B.;Wang,Q.X.;Cheng,Y.C.;Schwingenschlogl,U.;Zhang,X.X.;Yang,W.,Unraveling the Atomic Structure of Ultrafine Iron Clusters,SCIENTIFIC REPORTS,2,995,DEC 18 2012.|PDF 62.Li,T.F.;Qu,S.;Keplinger,C.;Baumgartner,R.;Bauer,S.;Yang,W.;Suo,Z.G.,Modeling guided design of dielectric elastomer generators and actuators,P SPIE 8340 ELECTROA,8340,2012.|PDF 63.Li,T.F.;Qu,S.X.;Yang,W.,Electromechanical and dynamic analyses of tunable dielectric elastomer resonator,INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES,49:26,3754-3761,DEC 15 2012.|PDF 64.Li,T.F.;Qu,S.X.;Yang,W..Energy harvesting of dielectric elastomer generators concerning inhomogeneous fields and viscoelastic deformation,JOURNAL OF APPLIED PHYSICS,112:3,034119,AUG 1 2012.|PDF 65.Fang,F.;Xu,Y.T.;Yang,W.,Magnetoelectric coupling of laminated composites under combined thermal and magnetic loadings,JOURNAL OF APPLIED PHYSICS,111:2,023906,JAN 15 2012.|PDF 2011 66.Li Z.H.,Yang W.,Force fluctuation on pulling a ssDNA from a carbon nanotube,BIOMECHANICS AND MODELING IN MECHANOBIOLOGY,10:2,221-227,APR 2011.|PDF 67.Fang F.,Zhao C.P.,Yang W.,Thickness effects on magnetoelectric coupling for Metglas/PZT/Metglas laminates,SCIENCE CHINA-PHYSICS MECHANICS&ASTRONOMY,54:4,581-585,APR 2011.|PDF 68.Cui Y.Q.;Yang W.,Electromechanical cracking in ferroelectrics driven by large scale domain switching,SCIENCE CHINA-PHYSICS MECHANICS&ASTRONOMY,54:5,957-965,MAY 2011.|PDF 69.Fan H.L.;Yang W.;Zhou Q.,Experimental research of compressive responses of multi-layered woven textile sandwich panels under quasi-static loading,COMPOSITES PART B-ENGINEERING,42:5,1151-1156,JUL 2011.|PDF 70.Cui Y.Q.;Yang W.;Zhong Z.,Green's function for T-stress of semi-infinite plane crack,APPLIED MATHEMATICS AND MECHANICS-ENGLISH EDITION,32:8,973-980,AUG 2011.|PDF 71.Wang H.T.;Nie A.M.;Liu J.B.;In situ TEM study on crack propagation in nanoscale Au thin films,SCRIPTA MATERIALIA,65:5,377-379,SEP 2011.|PDF 72.Liu J.B.;Nie A.M.;Dong C.Z.;Grain boundary structure dependent fracture in nanocrystalline Au films,MATERIALS LETTERS,65:17-18,2769-2771,SEP 2011.|PDF 73.Fang F.;Xu Y.T.;Zhu W.P.;A four-state magnetoelectric coupling for embedded piezoelectric/magnetic composites,JOURNAL OF APPLIED PHYSICS,110:8,084109,OCT 15 2011.|PDF 74.Lin,C.,Wang,H.T.,Yang,W.,2011.Wave Propagation and Scattering in Deformed Single-Wall Carbon Nanotubes.Journal of Computational and Theoretical Nanoscience 8,2019-2024,2011.|URL 75.Zhu,W.P.,Yang,W.,2011.Molecular dynamics study of configuration and stability of vacancy clusters in fcc Ag.Philosophical Magazine 91,3793-3809,2011.|PDF image.png 2010 76.Li Z.H.,Yang W.,Capture and manipulation of hybrid DNAs by carbon nanotube bundles,NANOTECHNOLOGY,21:19,195301,MAY 14 2010.|PDF 77.Lin C.,Wang H.T.,Yang W.,Variable percolation threshold of composites with fiber fillers under compression,JOURNAL OF APPLIED PHYSICS,108:1,013509,JUL 2 2010.|PDF 78.Lin C.,Wang H.T.,Yang W.,The thermomutability of single-walled carbon nanotubes by constrained mechanical folding,NANOTECHNOLOGY,21:36,365708,SEP 10 2010.|PDF 79.Qing H.,Yang W.,Lu J.A.,Numerical Simulation of Multiple Cracking in ANSI 304 Stainless Steel Under Thermal Fatigue,INTERNATIONAL JOURNAL OF DAMAGE MECHANICS,19:7,767-785,SEP 2010.|PDF 80.Lin C.,Wang H.T.,Yang W.,Shift in the percolation threshold of compressed composites-A 3D Monte Carlo simulation,JOURNAL OF ZHEJIANG UNIVERSITY-SCIENCE A,11:10,Sp.Iss.SI:822-826,OCT 2010.|PDF 81.Li Z.H.,Yang W.,Injection of stored nucleotides from single-walled carbon nanotubes,JOURNAL OF ZHEJIANG UNIVERSITY-SCIENCE A,11:10,Sp.Iss.SI,709-713,OCT 2010.|PDF 82.Zhou H.F.,Qu S.X.,Yang W.,Toughening by nano-scaled twin boundaries in nanocrystals,MODELLING AND SIMULATION IN MATERIALS SCIENCE AND ENGINEERING,18:6,065002,SEP 2010.|PDF image.png 83.Fang F.,Yang W.,Luo X.,[101]-Oriented Pb(Mg1/3Nb2/3)O3–PbTiO3 Single Crystals Under Electric Loadings:Polarization Rotation Linking MB,O,and R Phases,J.Am.Ceram.Soc.,93[11]3916–3920(2010).|PDF 84.Fang F.,Shan S.C.,Yang W.,A multipeak phenomenon of magnetoelectric coupling in Terfenol-D/P„VDF-TrFE…/Terfenol-D laminates,JOURNAL OF APPLIED PHYSICS 108,104505,2010.|PDF 85.Zhao C.P.,Fang F.,Yang W.,A dual-peak phenomenon of magnetoelectric coupling in laminated Terfenol-D/PZT/Terfenol-D composites,Smart Mater.Struct.19(2010)125004.|PDF 86.Fan H.L.,Zhou Q.,Yang W.,et al.,An experiment study on the failure mechanisms of woven textile sandwich panels under quasi-static loading,COMPOSITES PART B-ENGINEERING,41:8,686-692,DEC 2010.|PDF 87.Fan H.L.,Zeng T.,Fang D.N.,et al.,Mechanics of advanced fiber reinforced lattice composites,ACTA MECHANICA SINICA,26:6,825-835,DEC 2010.|PDF 2009 88.Li X.Y.,Yang W.,Size Dependence of Dislocation-Mediated Plasticity in Ni Single Crystals:Molecular Dynamics Simulations,JOURNAL OF NANOMATERIALS,Article Number:245941,2009.|PDF 89.Fang F.,Yang W.,Zhang M.Z.,Wang Z.,Mechanical response of barium-titanate/polymer 0–3 ferroelectric nano-composite film under uniaxial tension,Composites Science and Technology 69(2009)602–605.|PDF 90.Yang F.,Yang W.,Crack growth versus blunting in nanocrystalline metals with extremely small grain size,JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS,57:2,305-324,FEB 2009.|PDF 91.Fang F.,Luo X.,Yang W.,Polarization rotation and multiphase coexistence for Pb(Mg1/3Nb2/3)O-3-PbTiO3 single crystals at the morphotropic phase boundary under electric loading,PHYSICAL REVIEW B,79:17,174118,MAY 2009.|PDF 92.Fang F.,Yang W.,Yang Wen,Mechanical flexible and electric fatigue resistant behavior of relexor ferroelectric terpolymer,JOURNAL OF APPLIED PHYSICS 106,034106,2009.|PDF 93.Yang F.,Yang W.,Kinetics and size effect of grain rotations in nanocrystals with rounded triple junctions,SCRIPTA MATERIALIA,61:9,919-922,NOV 2009.|PDF 94.Li X.Y.,Wei Y.J.,Yang W.,et al.,Competing grain-boundary-and dislocation-mediated mechanisms in plastic strain recovery in nanocrystalline aluminum,PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,106:38,16108-16113,SEP 22 2009.|PDF image.png 95.Fan H.L.,Fang D.N.,Chen L.M.,et al.,Manufacturing and testing of a CFRC sandwich cylinder with Kagome cores,COMPOSITES SCIENCE AND TECHNOLOGY,69:15-16,2695-2700,DEC 2009.|PDF 96.Fang F.,Yang W.,Luo X.,Roles of microcracking and phase transition on electric fatigue for[001]-oriented Pb(Mg1/3Nb2/3)O-3-PbTiO3 single crystals,JOURNAL OF APPLIED PHYSICS,106:9,094107,NOV 1 2009.|PDF 97.Yang W.,Feng X.,Qin Q.H.,Preface to the Special Issue in Celebration of Professor Shouwen Yu's 70th Birthday,ACTA MECHANICA SOLIDA SINICA,22:5,Sp.Iss.SI,AR1-AR2,OCT 2009.|PDF 98.Fang F.,Yang W.,Zhang M.Z.,et al.,Electric Fatigue of Ceramic-Polymer Composite Film Under Cyclic Electric Field,JOURNAL OF APPLIED POLYMER SCIENCE,111:2,1105-1109,JAN 15 2009.|PDF 2008 99.Yang F.,Yang W.,Brittle versus ductile transition of nanocrystalline metals,INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES,45(13)3897-3907,JUN 30 2008.|PDF 100.Fang F.,Yang W.,Jia C.,et al.,Polarization enhancement for poly(vinylidene fluoride-trifluoroethylene)75/25 copolymer films by interlayer ordering under cyclic electric field,APPLIED PHYSICS LETTERS,92(22),222906,JUN 2 2008.|PDF 101.Geng L.M.,Yang W.,Defect agglomeration in ferroelectric ceramics under cyclic electric field,SCIENCE IN CHINA SERIES E-TECHNOLOGICAL SCIENCES,51:8,1296-1305,AUG 2008.|PDF 102.Qing H.,Yang W.,Lu J.,et al.,Thermal-stress analysis for a strip of finite width containing a stack of edge cracks,JOURNAL OF ENGINEERING MATHEMATICS,61:2-4,161-169,AUG 2008.|PDF 103.Ma X.L.,Yang W.,Dislocation-assisted grain growth in nanocrystalline copper under large deformation.Scripta Materialia 59(2008),pp.792-795.|PDF 104.Fang F.,Yang W.,Zhang F.C.,et al.,In-situ observation of fatigue crack growth for<001>-oriented rhombohedral Pb(Mg1/3Nb2/3)O-3-PbTiO3 ferroelectric single crystal,INTERNATIONAL JOURNAL OF FRACTURE,151:2,161-168,JUN 2008.|PDF 105.Fang F.,Yang W.,Jia C.,Zhang F.C.,Effect of Crystallite Size on the Deformation and Fracture of Poly(vinylidene fluoride-trifluorethylene)Ferroelectric Copolymer Films Under Uniaxial Tension,POLYMER ENGINEERING AND SCIENCE,2335-2339,2008.|PDF 106.Fang F.,Yang W.,Zhang F.C.and Qing H.,Electric field-induced crack growth and domain-structure evolution for[100]-and[101]-oriented 72%Pb(Mg1/3Nb2/3)O3–28%PbTiO3 ferroelectric single crystals,JOURNAL OF MATERIALS RESEARCH,23:12,3387-3395,DEC 2008.|PDF 2007 107.Fang F,Zhang MZ,Yang W,Strain rate mediated microstructure evolution for extruded poly(vinylidene fluoride)polymer films under uniaxial tension,JOURNAL OF APPLIED POLYMER SCIENCE 103(3):1786-1790 FEB 5 2007.|PDF image.png 108.Fang F.,Yang W.,and Zhang M.Z.,Electric fatigue in polyvinylidene fluoride-trifluoroethylene 68/32 copolymer films under cyclic electric field,JOURNAL OF APPLIED PHYSICS 101,044902(2007).|PDF 109.Fang F,Yang W,Zhang MZ,et al.,Deformation and molecular chain evolution of poly(vinylidene fluoride-trifluoroethylene)copolymer films under combined electrical and mechanical loads,JOURNAL OF APPLIED PHYSICS 101(5):Art.No.053531 MAR 1 2007.|PDF 110.Li X.Y.,Yang W.,Simulating fullerene ball bearings of ultra-low friction,NANOTECHNOLOGY 18(11):Art.No.115718 MAR 21 2007.|PDF 111.Li X.Y.,Yang W.,Liu B.,Bending induced rippling and twisting of multiwalled carbon nanotubes,PHYSICAL REVIEW LETTERS 98(20):Art.No.205502 MAY 18 2007.|PDF 112.Fan H.L.,Meng F.H.,Yang W.,Sandwich panels with Kagome lattice cores reinforced by carbon fibers,COMPOSITE STRUCTURES 81(4):533-539 DEC 2007.|PDF 113.Zhang X.M.,Ma N.K.,Fan H.L.,et al.,In vivo mechanical study of helical cardiac pacing electrode interacting with canine myocardium,ACTA MECHANICA SINICA 23(3):275-280 JUN 2007.|PDF 114.Fang F.,Yang W.,Zhang F.C.and Qing H..Domain structure evolution and fatigue cracking of<001>-oriented[Pb(Mg1/3Nb2/3)O3]0.67(PbTiO3)0.33 ferroelectric single crystals under cyclic electric loading,APPLIED PHYSICS LETTERS 91(8):Art.No.081903 AUG 20 2007.|PDF 115.FANG F.,YANG W.,ZHANG M.Z.,WANG Z.,Deformation and Fracture Behavior of High-Energy Electron Irradiated Poly(vinylidene fluoride-trifluorethylene)Ferroelectric Copolymer Films Under Uniaxial Tension,Journal of Polymer Science:Part B:Polymer Physics,2563-2567(2007).|PDF 116.Fan H.L.,Yang W.,Chao Z.M.,Microwave absorbing composite lattice grids,COMPOSITES SCIENCE AND TECHNOLOGY 67(15-16):3472-3479 DEC 2007.|PDF 117.Li X.Y.,Yang W.,Liu B.,Fullerene coalescence into metallic heterostructures in boron nitride nanotubes:A molecular dynamics study,NANO LETTERS,7:12,3709-3715,2007.|PDF 2006 118.Cui YQ,Yang W,Interplay between fracture and domain switching of ferroelectrics,KEY ENGINEERING MATERIALS 306-308:501-510 Part 1-2 2006.|PDF 119.Fang HR,Tang T,Zhang XM,et al.,Finite element modeling of cardiac pacing/defibrillation lead interaction with heart,KEY ENGINEERING MATERIALS 306-308:1271-1276 Part 1-2 2006.|PDF 120.Cui YQ,Yang W,Toughening under non-uniform ferro-elastic domain switching,INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES 43(14-15):4452-4464 JUL 2006.|PDF 121.Fan HL,Yang W,An equivalent continuum method of lattice structures,ACTA MECHANICA SOLIDA SINICA 19(2):103-113 JUN 2006.|PDF 122.Geng LM,Yang W,Coalescence of pore columns by domain switching,ACTA MECHANICA SINICA 22(3):207-216 JUN 2006.|PDF 123.Fan HL,Meng FH,Yang W,Mechanical behaviors and bending effects of carbon fiber reinforced lattice materials,ARCHIVE OF APPLIED MECHANICS 75(10-12):635-647 OCT 2006.|PDF 124.Qing H.,Yang W.,Characterization of strongly interacted multiple cracks in an infinite plate,Theoretical and Applied Fracture Mechanics 46(2006)209–216.|PDF 125.Li XY,Yang W,Atomistic simulations for the evolution of a U-shaped dislocation in fcc Al,PHYSICAL REVIEW B 74(14):Art.No.144108 OCT 2006.|PDF 126.Geng L.,Yang W.,Agglomeration of point defects in ferroelectric ceramics under cyclic electric field,Modelling Simul.Mater.Sci.Eng.14(2006)137-155.|PDF 127.Z.Guo and W.Yang,MPM/MD handshaking method for multiscale simulation and its application to high energy cluster impacts,International Journal of Mechanical Sciences,International Journal of Mechanical Sciences 48(2006)145–159.|PDF image.png 2005 128.Wang HM,Yang W,Li JF,Solution set on the natural satellite formation orbits under first-order earth's non-spherical perturbation,ACTA MECHANICA SINICA 21(5):503-510 NOV 2005.|PDF 129.Wang HT,Yang W,Ngan AHW,Enhanced diffusivity by triple junction networks,SCRIPTA MATERIALIA 52(1):69-73 JAN 2005,|PDF 130.Wang HT,Yang W,A screw dislocation nucleated from a triple junction,INTERNATIONAL JOURNAL OF PLASTICITY 21(11):2053-2070,2005.|PDF 131.Fang F,Yang W,Zhang FC,et al.,Fatigue crack growth for BaTiO3 ferroelectric single crystals under cyclic electric loading,JOURNAL OF THE AMERICAN CERAMIC SOCIETY 88(9):2491-2497 SEP 2005.|PDF 132.Li XY,Yang W,Multiple time step molecular dynamics simulation for interaction between dislocations and grain boundaries,ACTA MECHANICA SINICA 21(4):371-379 AUG 2005.|PDF 133.Yang W,Wang HT,Huang Y,Abnormal tribological behavior of multiwalled nanotube rafts-Part I:Aligned rafts,JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME 127(4):383-392 OCT 2005.|PDF 134.Fang F,Li YH,Yang W,Effect of poling directions on the electric-field-induced fatigue crack growth in barium titanate ferroelectric single crystals,FERROELECTRICS 322:11-21 2005.|PDF 135.Yang W,Wang HT,Huang Y,Abnormal tribological behavior of multiwalled nanotube rafts-Part II:Inclined rafts,JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY-TRANSACTIONS OF THE ASME 127(4):393-399 OCT 2005.|PDF 136.H.Qing,W.Yang,Thermal shock analyses for a strip containing an infinite row of periodically distributed cracks normal to its edge,Theoretical and Applied Fracture Mechanics 44(2005)249–260.|PDF 2004 137.Ma X.-L.and Yang W.Supersonic wave propagation in Cu under high speed cluster impact,Nanotechnology 15(2004),449-456.|PDF 138.B.Chen,Y.Huang,H.Gao and W.Yang.On the finite opening of intersonic shear cracks,International Journal of Solids and Structures,41(2004),2293-2306.|PDF 139.Yang W,Guo GF.Continuum analyses for intersonic and supersonic fracture,KEY ENGINEERING MATERIALS 261-263:1-10 Part 1&2 2004.|URL 140.Ma X.-L.,Wang H.-T.and Yang W.Tribological Behavior of Aligned Single-walled Carbon Nanotubes,ASME Journal of Engineering Materials and Technology,126(3):258-264 JUL 2004.|PDF 141.Yang W,Ma XL,Wang HT,et al.,Dislocation depleted deformation in nano-grained metals,KEY ENGINEERING MATERIALS 274-276:51-56 2004.|PDF 142.Wang HT,Yang W.Nitriding simulation for polycrystals of grain size gradient,SCRIPTA MATER 50(4):529-532,2004.|PDF 143.Yang W.and Wang H.T.,Mechanics modeling for deformation of nano-grained metals,J.Mech.Phys.Solids,52(2004),875-889.|PDF 144.Wang H.T and Yang W.,Constitutive modeling for nanocrystalline metals based on cooperative grain boundary mechanisms,J.Mech.Phys.Solids,52(2004),1151-1173.|PDF 145.Zhou CW,Yang W,Fang DN.Mesofracture of metal matrix composites reinforced by particles of large volume fraction,THEORETICAL AND APPLIED FRACTURE MECHANICS 41(1-3):311-326 APR 2004.|PDF 2003 146.Guo G.F.,Yang W.and Huang Y.Supersonic crack growth in a solid of upturn stress–strain relation under anti-plane shear,J.Mech.Phys.Solids,51(11-12):1971-1985,2003.|PDF 147.Ma X.-L.and Yang W,MD simulation for nanocrystals,Acta Mechanica Sinica,19(6):485-507,2003.|PDF 148.Yang W and Fang F.Toughening of Ferroelectrics by Out-of-Plane Poling.Acta Mechanica Sinica,19(2),147-153,2003.|PDF 149.Cui Y.Q.and Yang W.,Effect of transverse stress on switch-toughening of ferroelectrics.Theoretical and Applied Fracture Mechanics,39(2003),137-142.|PDF 150.Guo G.F.,Yang W.and Huang Y.Intersonic crack growth under time depended loading,Int.J.Solids&Structures,40(11):2757-2765,2003.|PDF 151.Ma X.-L.and Yang W.Molecular dynamics simulation on burst and arrest of stacking faults in nanocrystalline Cu under nanoindentation,Nanotechnology 14(2003)1208–1215.|PDF 152.Guo G.F.,Yang W.,Huang Y.and Rosakis A.J.Suddenly Decelerating or Accelerating Intersonic Shear Cracks,J.Mech.Phys.Solids,51(2003),311-331.|PDF 153.Yang W.,An Outline for Interfacial and Nanoscale Failure,to appear as Chapter 8.0 in Comprehensive Structure Integrity,vol.8,Interfacial and Nanoscale Failure,Eds.W.W.Gerberich and W Yang,2003,Elsevier Science,Oxford.|PDF 154.Yang W.,Fang F.and Fang D.N.,Failure of Ferroelectrics,to appear as Chapter 2.14 in Comprehensive Structure Integrity,vol.2,Fundamentals,Eds.B Karihaloo and W G Knauss,2003,Elsevier Science,Oxford.|PDF 155.Xing YM,Dai FL,Yang W.Nano-moire method and nanoscopic crack tip deformation,to appear as Chapter 8.0 in Comprehensive Structure Integrity,vol.8,Interfacial and Nanoscale Failure,Eds.W.W.Gerberich and W Yang,2003,Elsevier Science,Oxford.|PDF 156.Ma XL,Wang W,Yang W.Simulation for Surface Self-Nanocrystallization under Shot Peening,Acta Mechanica Sinica,19(2),172-180,2003.|PDF 2002 157.Kishimoto K,Omiya M,Yang W,Fracture mechanics of bonding interface:a cohesive zone model,SENSOR ACTUAT A-PHYS 99(1-2):198-206 APR 30 2002.|PDF 158.Li T,Yang W,Critical linkages of coalescing microcracks under stress loading,FATIGUE FRACT ENG M 25(5):499-508 MAY 2002.|PDF 159.Fang F,Yang W,Indentation-induced cracking and 90 degrees domain switching pattern in barium titanate ferroelectric single crystals under different poling,MATER LETT 57(1):198-202 NOV 2002.|PDF 160.Yang W,Hong W,Numerical simulation for deformation of nano-grained metals,Acta Mechanica Sinica 18(5):506-515 OCT 2002.|PDF 2001 161.Yang W,Fang F,Tao M.Critical role of domain switching on the fracture toughness of poled ferroelectrics.Int.J.Solids&Structs.,38(2001):2203~2211.|PDF 162.Yang Q and Yang W.Three-dimensional Analysis of Scale Dependence of Sub-micron Polycrystals due to Configuration Entropy.Acta Mechanica Sinica,17(2001),172-182.|PDF 163.Li T and Yang W.Expected coalescing length of displacement loading collinear microcracks.Theoretical and Applied Fracture Mechanics,36(2001),17-21.|PDF 164.Yang W.,Wang H.T.and Cui Y.Q.,Composite Eshelby model and domain band geometries of ferroelectric ceramics.Science in China,Ser.E 44(2001),403-413.|PDF 165.Yang W,Tang JC,Ing Y-S and Ma C-C.Transient Dislocation Emission from a Crack Tip,J.Mech.Phys.Solids,49(2001),2431-2453.|PDF 166.Yang W and Chen MX.Modeling of large plastic deformation in crystalline polymers.J.Mech.Phys.Solids,49(2001),2719-2736.|PDF 167.Yin L and Yang W.Optimality criteria method for topology optimization under multiple constraints.Computers and Structures,79(2001),1839-1850.|PDF 168.Yang W,Wang HT,Fang F and Cui YQ.Unconventional Domain Band Structure at the Crack Tip in Ferroelectric Ceramics.Theoretical and Applied Fracture Mechanics,37(2001),397-408.|PDF Before 2000 169.Yin L,Yang W and Guo TF.Tunnel Reinforcement via topology optimization,International Journal for Numerical and Analytical Methods in Geomechanics,24(2000),201-213.|PDF 170.Wang X,Zhuang Z and Yang W.Triple-layer absorptive structures for shock wave blast protection.Tsinghua Science and Technology,5(2000),5-8.|PDF 171.Yin L and Yang W.Topology optimization for tunnel support in layered geological structures,International Journal for Numerical Methods in Engineering,47(2000),1983-1996.|PDF 172.Zhou C,Yang W and Fang D.Damage of short-fiber-reinforced metal matrix composite considering cooling and thermal cycling.Journal of Engineering Materials and Technology,vol.122(2000),203-209.|PDF 173.Yin L and Yang W.Topology optimization to prevent tunnel heaves under different stress biaxialities.International Journal for Numerical and Analytical Methods in Geomechanics,24(2000),783-792.|PDF 174.Fang F and Yang W.Poling Enhanced Fracture Resistance of Lead Zirconate Titanate Ferroelelctric Ceramics.Materials Letters,46(2000),131-135.|PDF 175.Xing Y.M.,Dai F.L.and Yang W.,Experimental study about nano-deformation field near quasi-cleavage crack tip,Science in China,43(2000),963-968.|PDF 176.Yang W,Fang F,Zhu T.Microscopic deformation at a crack tip in a ferroelectric material.Key Engineering Materials.183(2000),175-180.|PDF 177.Xing YM,Dai FL,Yang W.An experimental observation about dislocation nucleation based on Peierls concept.Metals and Materials.7(2001),43-47.Key Engineering Materials,183-187(2000),737-742.|PDF 178.Zhu T.and Yang W.Fatigue crack growth in ferroelectrics under alternating electric loading,J.Mech.Phys.Solids,vol.47(1999),81-97.|PDF 179.Huang J and Yang W.Three dimensional evolution of interfaces under evaporation-condensation kinetics:a finite element simulation.Modelling and Simulation in Materials Science and Engineering,vol.7(1999),87-105.|PDF 180.Zhu T.and Yang W.Kink crack growth in ferroelectrics,Int.J.Solids&Structs,vol.36,no.33(1999),5013-5027.|PDF 181.Fang F,Yang W and Zhu T.Crack tip 90°switching in tetragonal lanthanum-modified lead zirconia titanate under an electric field,Journal of Materials Research,vol.14,no.7(1999),2940-2944.|PDF 182.Zhu T,Fang F and Yang W.Fatigue crack growth in ferroelectric ceramics below coercive field,Journal of Materials Science Letters,vol.18(1999),1025-1027.|PDF 183.Yang W.,Chen M.X.and Zheng Q.S.,Constitutive modeling of aggregates with evolving inextensible constraints,Int.J.Mechanical Sciences,vol.40,no.2(1998),139-146.|PDF 184.Zhang S.-L.,Li T.and Yang W.,Statistical strength of brittle solids with strongly interacted microcracks,Int.J.Solids Structs.,35(1998),995-1008.|PDF 185.Yang W.and Zhu T.,Switch-toughening of ferroelectrics subjected to electric fields,J.Mech.Phys.Solids,vol.46(1998),291-311.|PDF 186.Chen M-X,Y

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