吳文平[武漢大學土木建築工程學院副教授]

主要經歷

學習經歷

2010.10~2012.09 德國伍珀塔爾大學(Bergische Universität Wuppertal), 博士後

2006.09~2010.07 北京交通大學土木建築工程學院力學系，工學博士

2008.09~2009.09 德國達姆斯塔特工業大學(TU Darmstadt)力學系，聯合培養博士生

2004.09~2006.07 北京交通大學土木建築工程學院力學系，碩士生，提前攻讀博士學位(免於碩士學位論文答辯)

任職經歷

2010.08~2012.12 武漢大學土木建築工程學院，師資博士後，講師

2013.01~ 武漢大學土木建築工程學院，副教授

主講課程

本科生課程《工程力學》, 《彈性力學及有限元》,《科技文獻檢索與論文寫作》

研究生課程《材料力學行為》

科學研究

主要研究領域

1. 高溫結構材料的強化與失效

2. 金屬及合金變形損傷的多尺度分析與建模

3. 微納米材料力學性能的測試、模擬與表征

主要論文著作

1. 期刊論文

[1] Wu WP，Guo YF, Wang YS, 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. (SCI ).

[2] Wu WP，Guo YF, Wang YS. 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. (SCI ).

[3] Wu WP，Guo YF, Wang YS. 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. (SCI).

[4] Wu WP，Guo YF, Wang YS, Xu S. Evolution of interphase misfit dislocation networks ni Ni-based single crystal superalloy under shear loading. Acta Physica Sincia, 2011, 60(5): 056802. (SCI )

[5] Wu WP，Guo YF, Dui G S, Wang YS. A micromechanical model for predicting the directional coarsening behavior in Ni-based superalloys.Computational Materials Science, 2008, 44(2): 259-264. (SCI)

[6] Wu WP，Guo YF, 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. (SCI)

[7] Guo YF, Wang YS, Wu WP, Zhao DL. Atomistic simulation of martensitic phase transformation at the crack tip in B2 NiAl. Acta Mater. 2007, 55: 3891-3897. (SCI)

[8] Guo YF, Wang YS, Zhao DL, Wu WP. Mechanisms of martensitic phase transformations in body-centered cubic structural metals and alloys: Molecular dynamics simulations,Acta Mater. 2007, 55: 6634-6641. (SCI)

[9] Wu W P，Guo YF, Wang Y S.Finite element analysis of γ' phase raft mechanism in a Ni-based single crystal superalloy. Trans. Nonferrous Met. Soc. China, 2006, 16: S1990-S1995. (SCI)

[10] Wu WP, Yao Z. Molecular dynamics simulation of crack tip stress and microstructure evolution of a growing crack in single crystal nickel. Theor. Appl. Fract. Mech.2012,62:67-75 (SCI)

[11] Wu WP, Yao Z. Sample size dependence of crack-tip microstructure and stress evolutions in single crystal nickel. CMES: Comput. Model. Eng. Sci. 2013, 93(4):235-252. (SCI)

[12] Wu WP, 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+. 2013, 46(2): 164-171. (SCI)

[13] Wu W P，Guo YF, Wang Y S. Micromechanics method to evaluate fatigue life of Ni-based superalloys during morphological evolution, Key. Eng. Mater. 2008, 385-387: 221-224.

[14] 吳文平, 郭雅芳. 鎳基單晶高溫合金定向粗化機制有限元分析, 北京交通大學學報(自然科學版), 2008, 32(4): 67-70.

[15] 吳文平, 郭雅芳, 汪越勝. 鎳基單晶高溫合金定向粗化行為及高溫蠕變力學性能研究. 力學進展. 2011, 41(2): 172-185.

2. Selected Conference Papers

[1] Wu WP, YaoZ. Temperature dependence of deformation twinning and stress evolution around the crack-tip of intergranular fracture process in nickel. Proceedings of International Conference on Science and Technology of Heterogeneous Materials and Structures at Wuhan, China, 2013, P55-56.

[2] Wu WP, Guo YF, Wang YS. Influence of strain rate and temperature on interface misfit dislocation networks in Ni-based superalloys. Proceedings of the Third International Conference on Heterogeneous Material Mechanics at Shanghai, China, 2011, P 92-95.

[3] Wu WP, Guo YF, Wang YS, Mueller, R., Gross, D. Atomistic imulation of misfit dislocation network structures evolution in γ/γ' phase interface of Ni-based superalloys under tensile loading. Proceedings of the 18 International Conference on Computer Methods in Mechanics at Zielona Góra, Poland,2009, P509-510.

[4] Wu WP, Guo YF, Wang YS. Micromechanics method to simulate morphological evolution of precipitates in Ni-based superalloys.Proceedings of the Second International Conference on Heterogeneous Material Mechanics at Huangshan, China, 2008, P26-29.

[5] Wu WP，Guo YF, Dui G S, Wang YS. (2007): Study on micromechanical behavior in Ni-based single crystal superalloys. Proceedings of the 5 International Conference on Nonlinear Mechanics at Shanghai, China, 2007, P296-301.

主要科研項目

主持項目

(1) 國家自然科學基金青年基金: “基於界面位錯網演化的鎳基合金蠕變損傷與本構模型研究” （Grant No.11102139）

(2) 中國博士後科學基金面上項目: “金屬晶體疲勞裂紋擴展及其疲勞損傷演化的界面效應” （Grant No. 20110491205）

(3) 第五批博士後科學基金特別資助: “鎳基單晶高溫合金界面微結構及其對蠕變力學性能的影響” （Grant No. 2012T50665）

獎勵和榮譽

2006年 1月獲得北京市第12屆力學年會青年優秀論文獎

2008年12月被評為北京市三好學生

2012年12月入選武漢大學“351人才計畫”珞珈青年學者