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吴文平

  

  

吴文平

   

出生年月


学历学位

工学博士

   

副教授

博导/硕导

博导

  

430072

办公电话

027-68775496

   


通信地址

武汉武昌东湖南路8

Email

wpwu@whu.edu.cn

学习经历

2010.10-2012.10  德国伍珀塔尔大学(Bergische Universität Wuppertal),博士后

2006.09-2010.07  北京交通大学土木建筑工程学院力学系,工学博士

2008.09-2009.09  德国达姆斯塔特工业大学(TU Darmstadt)力学系,联合培养博士生

2004.09-2006.07  北京交通大学土木建筑工程学院力学系,硕士生,提前攻读博士学位

2000.09-2004.07  兰州交通大学土木建筑工程学院,土木工程, 工学学士

任职经历

2010.08-2012.12  武汉大学土木建筑工程学院,师资博士后,讲师

2013.01至今      武汉大学土木建筑工程学院,副教授

2015.09至今      武汉大学土木建筑工程学院,副教授, 博士生导师

 

国际(境外)交流与合作

2018.09-2019.08  奥地利国家科学研究院, 埃里希施密德材料研究所, 合作研究(ERC资助)

2017.03-2017.05  香港科技大学, 机械与航天工程系, 访问学者(香港科大短期合作项目资助)

2014.06-2014.08  德联邦材料测试与研究所(BAM, 高温材料研究所, 访问学者(湖北省青年晨光计划资助)

2012.10-2013.01  香港科技大学, 机械与航天工程系, 访问学者(香港科大短期合作项目资助)

 

含本科生和研究生课程

 本科生课程 《工程力学》, 《弹性力学及有限元》,《科技文献检索与论文写作》

 研究生课程 《材料力学行为》, 《细观力学》

 

 

 

 

 

 

 

 

主要研究领域

1. 高温结构材料的强化与失效

2. 金属及合金损伤失效的多尺度模拟与计算

3. 微纳米材料力学性能的测试与模拟

主要论文著作 

1.SCI期刊论文  * Corresponding author

[1] Wu W   P,Guo Y F,   Wang Y S, Mueller R, Gross D. Molecular dynamics simulation of the structural   evolution of misfit dislocation networks at γ/γ' phase interfaces in Ni-based   superalloys. Philosophical Magazine 2011, 91(3): 457-472.

[2] Wu W   PGuo Y F,   Wang Y S. Evolution of misfit dislocation network and   tensile properties in Ni-based superalloys: a molecular dynamics simulation. Science China-Physics, Mechanics & Astronomy, 2012, 55(3): 419-427.

[3] Wu   W PGuo Y F, Wang Y S. Influence of stress state on the evolution of   misfit dislocation netrworks in a Ni-based single crystal superalloy. Philosophical   Magazine, 2012, 92(12):1456-1468.

[4] Wu   W PGuo Y F, Wang Y S, Xu S. Evolution of interphase misfit   dislocation networks in Ni-based single crystal superalloy under shear   loading. Acta Physica Sincia, 2011, 60(5): 056802.

[5]   Wu W PGuo Y F, Dui G S, Wang Y S. A micromechanical model for predicting   the directional coarsening behavior in Ni-based superalloys. Computational   Materials Science, 2008, 44(2): 259-264.

[6] Wu   W PGuo Y F, Wang Y S, Mueller R, Gross D. Influence of external   stress and plastic strain on the morphological evolution of precipitates in   Ni-based superalloys. Computational Materials Science, 2009, 46(2): 431-437.

[7] Wu   W PGuo Y   F, Wang Y S. Finite element analysis of γ' phase raft mechanism in a Ni-based single crystal superalloy. Transactions   of Nonferrous Metals Society of China, 2006, 16(S): 1990-1995.

[8] Guo Y F, Wang   Y S, Wu W P, Zhao D L. Atomistic simulation of martensitic   phase transformation at the crack tip in B2 NiAl. Acta Materialia, 2007, 55:   3891-3897.

[9] Guo Y F, Wang   Y S, Zhao D L, Wu W P.   Mechanisms of martensitic phase transformations in body-centered cubic   structural metals and alloys: Molecular dynamics simulations, Acta Materialia, 2007, 55: 6634-6641.

[10] Wu W P*, Yao Z. Molecular dynamics simulation of crack tip stress and microstructure   evolution of a growing crack in single crystal nickel. Theoretical and   Applied Fracture Mechanics, 2012, 62: 67-75.

[11] Wu W P*, Yao Z. Sample size dependence of crack-tip microstructure   and stress evolutions in single crystal nickel. Computer Modeling in   Engineering and Sciences, 2013, 93(4):235-252.

[12] Wu W P*, Yao Z. Influence of   strain rate and temperature on the crack tip stress and microstructure   evolution of monocrystalline nickel: a molecular dynamics simulation. Strength Mater. 2014, 46(2): 164-171.

[13] Li Y L, Wu W P*, Li N   L, Qi Y. Cohesive zone representation of crack and void growth in single   crystal nickel via molecular dynamics simulation. Computational Materials   Science, 2015, 104: 212-218.

[14] Sun X Y, Wu W P, Dong X L,   Xu Y J. Cross-sectional geometry dependence of spontaneous phase   transformation of copper nanowires. Current Applied Physics, 2015(15):   363-366.

[15] Li Y W, Feng S M, Wu W P, Li F X. Temperature   dependent mechanical property of PZT film: an investigation by   nanoindentation. Plos one. 2015, 0116478.

[16] Wu   W P*, Wei Y, Liu P. Indentation depth-dependence of the   hardness of NiTi shape memory alloy and Al single crystal: phase transition   versus plasticity. Materials Research Innovations, 2015, 19: 37-40.

[17] Wu W P*, Li Y L, Sun X Y.   Molecular dynamics simulation-based cohesive zone representation of fatigue   crack growth in a single crystal nickel. Computational Materials Science,   2015, 109: 66-75.

[18] Tang Z   J, Zhou D B, Peng C W, Wu W P*. The structural analysis   of steel silos with cylindrical-wall bearing and profile-steel bearing. Civil   engineering Journal. 2015, 12(2): 1-9. DOI: 10.14311/CEJ.2015.02.0012.

[19] Qi Y, Wu W P*, Chen Y B,   Chen M X. Crystal orientation dependence of crack growth and stress evolution   in single crystal nickel: a molecular dynamics simulation-based cohesive zone   model. RSC Advances, 2015, 5: 65942-65948.

[20] Li S Y, Wu W P*, Chen   M X. An anisotropic micromechanics model for predicting the rafting direction   in Ni-based single crystal superalloys. Acta Mechanica Sinica, 2016, 32 (1):135-143.

[21] Wu W P*, Li N L, Li Y L. Molecular   dynamics-based cohesive zone representation of microstructure and stress   evolutions of nickel intergranular fracture process: Effects of temperature.   Computational Materials Science, 2016, 113: 203-210.

[22] Li Y L, Wu W P*, Ruan Z G. Evolution   of interfacial dislocation network and stress distribution of Ni-based single   crystal superalloys under temperature. Acta Metallurgica Sinica, 2016,   29(7):689-696.

[23] Xia R, Zhou H, Wu R, Wu W P*,   Nanoindentation investigation of temperature effects on the mechanical   properties of Nafion®117. Polymers, 2016, 8(9):8090344.

[24] Nie K, Wu W P*, Zhang X L, Yang S M.   Molecular dynamics study on the grain size, temperature, and stress   dependence of creep behavior in nanocrystalline nickel. Journal of Materials   Science, 2017, 52(4): 2180-2191.

[25] Li S Y, Wu W P*, Li Y   L, Chen M X. An anisotropic   micromechanical model for calculation of effective elastic moduli of Ni-based   single crystal superalloys. Science China-Technological Sciences, 2017,   60(3):452-458.

[26] Wang B, Kang G Z, Kan Q H, Wu W P,   Zhou K, Yu C. Atomistic study on the super-elasticity of single crystal bulk   NiTi shape memory alloy under adiabatic condition. Computational Materials   Science, 2018, 142: 38-46.

[27] Wang   B, Kang G Z, Kan Q H, Wu W P, Zhou K, Yu C. Atomistic   study on the super-elasticity of nanocrystalline NiTi shape memory alloy   subjected to a cyclic deformation. Computational Materials Science, 2018,   152: 85-92.

[28]Zhou H, Wu W P, Wu R, Hu G, Xia   R. Effects of Various   Conditions in Cold-welding of Copper Nanowires: A Molecular Dynamics Study. Journal   of Applied Physics, 2017, 122, 204303.

[29] Xia   R, Zhou H, Zhang Z, Wu R,  Wu W P*. Effects of loading   conditions on the Nanoindentation creep behavior of Nafion 117 Membranes,   Polymer Engineering and Science, 2018, 58(11):2071-2077.

[30] Li Y L,   Zou W L, Wu W P, Chen L. Discrete element modeling of strength   properties and failure modes of QH-E lunar soil simulant at low confining   stresses. Civil Engineering Journal, 2018, 2: 211-226.

[31] Li N L, Wu W P*, Nie K. Molecular   dynamics study on the evolution of interfacial dislocation network and   mechanical properties of Ni-based single crystal superalloys. Physics Letter   A, 2018, 382: 1361-1367.

[32] Li   Y L, Zou W L, Wu W P, Chen L, Chu X H. Triaxial compression   tests of QH-E lunar soil simulant under constant mean principal stress path   using discrete element method simulations. Granular matter, 2018, 20: 79-91.

[33] Yang S M, Wu W P*, Chen M X.   Discrete element modeling of first shear strain gradient effects on   mechanical behaviors in granular materials. Granular Matter, 2019, 21: 13-20.

[34] Zhang Z, Tian C, Yuan Z, Li J, Wu W P, Xia   R. Temperature and loading sensitivity investigation of nanoindentation short-term   creep behavior in Nafion®. Materials Research Express, 2019, 6: 055304.

[35] Wu W P*, Li S Y, Li Y L. An   anisotropic elastic-plastic model for predicting the rafting behavior in   Ni-based single crystal superalloys. Mechanics of Materials, 2019, 132:9-17

2.其他论文

[1] 吴文平, 郭雅芳. 镍基单晶高温合金定向粗化机制有限元分析, 北京交通大学学报(自然科学版), 2008, 32(4): 67-70.

[2] 吴文平, 郭雅芳, 汪越胜. 镍基单晶高温合金定向粗化行为及高温蠕变力学性能研究. 力学进展. 2011, 41(2): 172-185.

[3] Ruan Z   G, Wu W P*, Li N L. Effects of Strain Rate, Temperature and grain   size on the mechanical properties and microstructure evolutions of polycrystalline   nickel nanowires: A molecular dynamics simulation. Wuhan University Journal   of Natural Sciences, 2018,23(3):251-258.

3.专利/软件著作权

   吴文平 孟春宇,徐远方. 基于准连续介质力学的二维裂纹模拟系统(2D-CSS(crack simulation system). 登记号:2019SR0098834

 

承担的主要科研项目

1.主持项目

(1) 国家自然科学基金青年基金:基于界面位错网演化的镍基合金蠕变损伤与本构模型研究 (Grant No. 11102139) (2012.01~2014.12)

(2) 国家自然科学基金面上:镍基单晶高温合金界面位错及位错网演化对蠕变性能的影响(Grant No. 11472195)(2015.01~2018.12)

(3) 国家自然科学基金面上:镍基单晶高温合金低周疲劳损伤的相界面微结构演化与本构模型研究(Grant No. 11772236)(2018.01~2021.12)

(4) 国家自然科学基金与欧盟委员会国际合作(NSFC-ERC)“中欧人才项目”:

“金属玻璃剪切带的形成和演化对力学性能的影响”(Grant No. 11711530643)(2018.01~2019.12)

(5) 湖北省自然科学基金面上:镍基单晶高温合金定向粗化行为对合金蠕变性能的影响(Grant No. 2014CFB713)(2014.01~2015.12)

(6) 湖北省青年科技晨光计划:“镍基单晶高温合金的界面疲劳裂纹扩展及微结构演化”(2016.01~2017.12)

(7) 中国博士后科学基金面上项目: “金属晶体疲劳裂纹扩展及其疲劳损伤演化的界面效应(Grant   No. 20110491205)   (2011.06~2012.12)

(8) 第五批博士后科学基金特别资助:镍基单晶高温合金界面微结构及其对蠕变力学性能的影响Grant No. 2012T50665(2012.09~2013.12)

(9) 中央高校基本科研业务经费(学科交叉类):   “原子内聚力模型模拟纳米金属晶体疲劳裂纹扩展及疲劳损伤演化的晶界效应(2015.01~2016.12)

(10) 中央高校基本科研业务经费(国防B): “基于界面微结构演化机制的镍基单晶合金疲劳失效行为研究”   (2017.01~2017.12)

(11) 中央高校基本科研业务经费(创新拔尖人才类): “高温合金失效机理及其模拟方法”  (2019.01~2020.12)

(12) 武汉大学引进人才专项经费:镍基单晶高温合金蠕变损伤的多尺度模型与分析(2013.01~2016.12)

 

2.参加项目

国家自然科学基金重点项目: “ 形状记忆合金热-力耦合循环变形和疲劳失效行为的宏微观实验和理论研究” (Grant No. 11532010). (2016.01~2020.12)

横向项目: “大型筒仓结构分析”, 中南电力设计院委托 (2014.01~2014.12)

20061获北京市第12届力学年会青年优秀论文奖

200812月被评为北京市三好学生

20117月获北京交通大学优秀博士学位论文

201212月入选武汉大学“351人才计划”珞珈青年学者

20139 月获评第十届武汉大学杰出青年

主要社会和学术兼职

 

1.《武汉大学学报》工学版编委

2.Journal of Alloys and   Compunds,Computational Materials   Science, Materials Science and   Engineering A, International Journal of   Fatigue,Modelling and Simulation   in Materials Science and EngineeringEngineering Fracture Mechanics,Scientific Reports, International Journal of   Damage Mechanics,Molecular Simulation, Applied Mathematics and   Mechanics (English Edition) , 《中国科学》, 《力学学报》等国内外期刊审稿人

 

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