姓 名:吴增文
性 别:男
学 历:博士研究生
主要研究成果:
(1)Wu Zengwen, Liang Jun, Fu Maoqing, Fang Guodong,Zhou Zhengong. Study of random fatigue behavior of C/SiC composite thin-wall plates[J]. International Journal of Fatigue, 2018, 116: 553561.
(2)Wu Zengwen, Fang Guodong, Fu Maoqing, Chen Xiaojie,Liang Jun*,Lv Dongkai. Random fatigue damage accumulation analysis of composite thin-wall structures based on residual stiffness method[J]. Composite Structures, 2019, 211: 546-556.
(3)Wu Zengwen, Zhao Yuan, Fang Guodong, Fu Maoqing,Liang Jun*. A frequency domain approach in residual stiffness estimation of composite thin-wall structures under random fatigue loadings[J]. International Journal of Fatigue, 2019, 124: 571-580.
(4)Chen Xiaojie, Sun Yi, Wu Zengwen, Yao Liaojun Zhang Yuli, Zhou Song, Liu Yizhi. An investigation on residual strength and failure probability prediction for plain weave composite under random fatigue loading[J]. International Journal of Fatigue, 2019, 120: 267-282.
(5)Che Lu, Fang Guodong, Wu Zengwen, Ma Yunfei, Zhang Jiazhen, Zhou Zhendong. Investigation of curing deformation behavior of curved fiber metal laminates[J]. Composite Structures, 2020, 232: 111570.
(6)ZhaoYuan, René Alderliestenb, Wu Zengwen, Zhou Zhengong, Fang Guodong, Zhang Jiazhen, Rinze Benedictus. Determining finite-width-correction factors for fatigue crack growth prediction in GLARE using the equivalent compliance method[J]. International Journal of Fatigue, 2019, 127: 74-81.
(7)Fang Guodong, Liu Shuo, Fu Maoqing, Wang Bing, Wu Zengwen, Liang Jun. A method to couple statebased peridynamics and finite element method for crack propagation problem[J]. Mechanics Research Communications, 2019, 95: 89-95.
(8)吴增文, 李洪朋, 吕东锴, 方国东. 高温环境下复合材料薄壁结构声振响应分析. CCTAM 2015, 会议论文
(9)Zengwen Wu, Jun Liang, Guodong Fang, Shuo Liu. The Effect of Local Damage on The Dynamic Behaviorof Composite Thin-wall Structure. 第 12 届国际计算力学大会暨第 6 届亚太计算力学大会 (WCCM XII & APCOM VI),韩国首尔,2016
(10)吴增文, 梁军,方国东,付茂青,刘硕. 随机载荷作用下复合材料薄壁结构疲劳特性研究. CCTAM 2017, 会议论文
