个人简历

1964年4月生，1991年获北航固体力学专业博士学位，2002年晋升为北航固体力学专业教授。长期从事材料力学、工程塑性力学、工程力学等教学工作，并一直致力于损伤力学、复合材料力学与断裂力学等方面的研究工作，迄今发表学术论文40余篇、参与编写专著2部。曾获国家科技进步三等奖、航空部科技进步一等奖、教委科技进步二等奖，获评全国力学教学优秀教师等。

研究领域

损伤力学、复合材料力学、断裂力学、生物力学""

近期论文

Hualiang Wan，QizhiWang，etc.，Multi-scale damagemechanics method for fatigue life prediction of additive manufacture，structures of Ti-6Al-4V Materials Science & Engineering A，669（4） ：269~278，2016\r
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Hualiang Wan，QizhiWang，etc.，AnisotropicElastoplastic Damage Mechanics Method to Predict Fatigue Life of the Structure，Advances in Materials Science and Engineering, 2016\r
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Hualiang WAN，QizhiWANG，ect.，Closed form solutionof stress intensity factors for cracks emanating from surface semi-sphericalcavity in finite body with energy release rate method, Applied Mathematics andMechanics，37（12） ：1689~1706，2016\r
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Pingjun Li, Qizhi Wang, Shaofang Shi，Differential scheme for the effective elastic properties of nanoparticlecomposites with interface effect，ComputationalMaterials Science, 2011，50（11）：3230-3237；\r
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Wang Qizhi and Lee Dong Joo, AnAnalytical Study of Cavitation in Rubber -Toughed Polymers, J COMPOS MATER 34(23): 1960-1981,2000\r
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Wang Qizhi and Lee Dong Joo, PredictiveModelling for Rubber -Toughened Polymers, Mechanics of Materials, Vol.31,705-716,1999\r
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Wang Qizhi and Lee Dong Joo, AnalyticalModelling of Mechanical Properties for Rubber-Toughened Polymers, J. ofMaterials Science, Vol.34,5861-5869,1999.\r
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Wang Qizhi and Zhang Xing, A Closed FormSolution about Stress Intensity Factors of Shear Modes for 3 - D Finite BodiesWith Eccentric Cracks by Energy Release Rate Method, Int. J. Solids Structures,1999; 36(7): 971-998.\r
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Wang Qi - zhi, Zhang Xing, Ren Bing -yi, A Closed Form Solution of Stress Intensity Factors for Three DimensionalFinite Bodies with Unsymmetric Cracks by Energy Release Rate Method,International Journal of Fracture',Vol.47, pp.257-290, 1991\r
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Wang Qi - zhi, Zhang Xing, Closed FormSolution of Stress Intensity Factors for Three Dimensional Finite Bodies withBiaxial Unsymmetric Cracks, 'Engineering Fracture Mechanics', Vol.36, No.6,pp859-888, 1990.