飞行器设计系
徐武

徐武

职务:飞行器设计系副主任、长聘副教授、博导

办公电话:021-34207963

电子邮件:xuwu@sjtu.edu.cn

办公地址:上海交通大学太阳集团tyc151学院A435

 

工作经历

时间 任职单位 职务
2022年9月至今 上海交通大学太阳集团tyc151学院 长聘副教授
2019年7月-2022年8月 上海交通大学太阳集团tyc151学院 长聘教轨副教授
2016年4月-2019年6月 上海交通大学太阳集团tyc151学院 特别副研究员
2012年11月-2015年9月 密歇根大学航空工程系 博士后

教育背景

时间 毕业院校 学历
2007年9月-2012年10月 上海交通大学 博士
2003年9月-2007年7月 哈尔滨工程大学 本科

研究方向

(1)断裂力学:权函数法、断裂准则、疲劳裂纹扩展;

(2)复合材料力学:层间分层、面内断裂、试验方法与标准化;

(3)飞行器结构疲劳与损伤容限:疲劳与裂纹扩展寿命预测与试验验证,损伤容限分析软件开发。

主要科研项目

(1)国家自然基金面上项目,加捻正交三维机织复合材料桥连增韧机理研究;

(2)工信部民机专项,民机结构广布疲劳损伤评定与验证技术研究;

(3)中航工业气动院,民用飞机力学规范顶层设计与发展需求研究;

(5)上海市科技英才扬帆计划,复合材料层压板破坏机理与强度预测研究;

(7)成都飞机设计研究所,3D打印结构疲劳试验与三维裂纹扩展分析;

(8)中船711所,碳纤维复合材料桨叶设计与分析;

(9)中材科技有限公司,三维机织复合材料断裂韧性试验方法研究;

(10)中国商发,风扇包容机匣典型件准静态侵彻与法兰边拉伸试验研究;

(11)上海飞机设计研究院,C919飞机铝锂合金典型连接结构疲劳试验与分析;

(12)商用飞机系统工程中心,复材结构关键细节层间强度确定方法与验证技术。

代表性论文专著

专业著作

(1)Wu XR, Xu W. Weight function in fracture mechanics: Theory and applications. Springer & AVIC Press, 2022.获国家丝路书香出版工程资助.

(2)吴学仁, 童第华, 徐武, 赵晓辰. 断裂力学的权函数理论与应用.航空工业出版社, 2019.获国家出版基金资助.

 

代表性论文(*表示通讯作者)

(1)Zhang B, Xu W*, Wu XR. Weight function analyses and stress intensity factors for corner/surface crack in straight and tapered lugs. Fatigue & Fracture of Engineering Materials & Structures, 2023.1-20.

 (2)Xu W, Wu XR*. A review of three-dimensional weight function methods for the analysis of various surface/corner crack problems. Fatigue & Fracture of Engineering Materials & Structures, 2023;1-25.

 (3)Xu W*, Ren Y, Xiao S, Liu B*. A finite crack growth energy release rate for elastic-plastic fracture. Journal of the Mechanics and Physics of Solids, 2023, 181, 105447.

(4) Xu W*, Zhang B, Wu XR. Three-dimensional weight function analyses and stress intensity factors for two eccentric and asymmetric surface cracks and surface-corner cracks at a circular hole. Engineering Fracture Mechanics, 2023, 277:108972.

 (5)Shi C, Xu W*.Effects of friction and strain hardening on ELS mode II interlaminar fracture test.Composite Structures, 2023, 313, 116942.

(6) Xu W*, Zhang S, Liu W, Yu Y. Highly tough 3D woven composite materials- Fracture characterization and toughening mechanisms. Theoretical and Applied Fracture Mechanics, 2023:124:103734.

(7) Zhang B, Xu W*, Wu XR. Three-dimensional weight function analyses and stress intensity factors for two unsymmetric surface cracks and surface-corner cracks at a circular hole. Theoretical and Applied Fracture Mechanics, 2022:122:103607.

(8) Zhang B, Xu W*, Wu XR. Weight function method and stress intensity factor for two asymmetric through-thickness and quarter-elliptical corner cracks at circular hole. Engineering Fracture Mechanics, 2022, 264:108361.

 (9)Xu W*, Ding JC, Ge JR, Zhang Q. Determination of mode I interlaminar fracture toughness of C/SiC composite using taped double cantilever beam and J integral. Journal of Applied Mechanics, 2022, 89(2): 024501.

(10) Ding JC, Xu W*. Determination of mode I interlaminar fracture toughness of composite by a wedge-insert double cantilever beam and the nonlinear J integral. Composites Science and Technology 2021; 206:108674.

(11)Zhang B, Xu W*, Wu XR, Yu Y, Dong DK. Stress intensity factors and plastic zones of stiffened panels with multiple collinear cracks. Theoretical and Applied Fracture Mechanics, 2020:110:102816.

(12)Xu W*, Ding JC. Correction of the large displacement effect on determination of mode I interlaminar fracture toughness of composite. Engineering Fracture Mechanics 2020; 238:107279.

(13)Xu W*, Rao DY, Wu XR, Tong DH, Zhao XC. Wide-range and accurate mixed-mode weight functions and stress intensity factors for cracked discs. Fatigue & Fracture of Engineering Materials & Structures 2020; 43:1022-1037.

(14)Xu W*, Zhang C, Wu XR, Yu Y. Weight function method and its application for orthotropic single edge notched specimens. Composite Structure, 2020, 252:112695.

(15)Xu W*, Guo ZZ, Yu Y. A combined strain and compliance method for improving ASTM D6671 to measure the mixed modes I/II interlaminar fracture toughness. Composite structures 2019; 221:110867.

(16)Liu ZX, Xu W*, Yin Y, Wu XR. Weight functions and stress intensity factors for two unequal-length collinear cracks in an infinite sheet. Engineering Fracture Mechanics 2019; 209:173-186.

(17)Xu W*, Guo ZZ, Yu Y, Xiong J, Gao Y. Experimental and analytical characterizations of finite interlaminar crack growth of 2D woven textile composites. Composite Structures 2018; 206: 713–721.

(18)Xu W*, Guo ZZ. A simple method for determining the mode I interlaminar fracture toughness of composites without measuring the growing crack length. Engineering Fracture Mechanics 2018; 191: 476-485.

(19)Xu W*, Wu XR, Yu Y, Li ZH. A weight function method for mixed modes hole-edge cracks. Fatigue and Fracture of Engineering Materials and Structures 2018; 41(1):223-234.

(20)Xu W*, Wu XR, Yu Y. Weight function, stress intensity factor and crack opening displacement solutions to periodic hole-edge cracks. Fatigue and Fracture of Engineering Materials and Structures 2017; 40: 2068–2079.

(21)Xu W*, Waas AM*. Multiple solutions in cohesive zone models of fracture. Engineering Fracture Mechanics 2017; 177:104-122.

(22)Xu W, Waas AM*. Fracture toughness of woven textile composites. Engineering Fracture Mechanics 2017; 169: 184-188.

(23)Xu W, Waas AM*. Modeling damage growth using the crack band model; effect of different strain measures. Engineering Fracture Mechanics 2016; 152: 126-138.

(24)Xu W, Thorsson SI, Waas AM*. Experimental and numerical study on cross-ply woven textile composite with notches and cracks. Composite Structures 2015; 132: 816-824.

(25)Xu W, Waas AM*. Modeling the axial splitting and curling of metal tubes under crush loads. Computers, Materials & Continua 2015; 46(3): 165-194.

(26)Xu W, Waas AM*. A novel shell element for quasi-static and natural frequency analysis of textile composite structures. Journal of Applied Mechanics 2014; 81(8).

(27)Xu W, Wang H*, Wu XR, Zhang X, Bai GJ, Huang XL. A novel method for residual strength prediction for sheets with multiple site damage: Methodology and experimental validation. International Journal of Solids and Structures 2014; 51 (3), 551-565.

(28)Xu W, Wu XR*. Weight functions and strip-yield model analysis for three collinear cracks. Engineering Fracture Mechanics 2012; 85:73-87.

(29)Xu W, Wu XR*, Wang H. Weight functions and strip yield solution for two equal-length collinear cracks in an infinite sheet.Engineering Fracture Mechanics 2011; 78(11): 2356-2368.

(30)Wu XR*, Xu W. Strip yield crack analysis for multiple site damage in infinite and finite panels–A weight function approach. Engineering Fracture Mechanics 2011; 78(14): 2585-2596.

(31)吴学仁*,徐武. 裂纹体分析的权函数理论与应用-回顾和展望.力学进展 2022.

(32)黄勇,徐武*,朱林刚,李凯.大型客机后缘襟翼操纵与非对称控制.力学季刊 2022;43(1):110-121.

(33)郭壮壮,徐武*,余音. 低温环境下测试复合材料I 型层间断裂韧性的简易方法.复合材料学报 2019;36(5):1210-1215.

(34)李政鸿,徐武*,张晓晶,余音.多孔多裂纹平板的疲劳裂纹扩展实验与分析方法.航空学报 2018;39(7):221867-1~8.

(35)王幸,徐武,张晓晶*,张丽娜,胡本润. TC4板冷挤压强化寿命预测与试验验证.浙江大学学报 2017;51(8):1610-1618.

学术兼职

《Engineering Fracture Mechanics》《International Journal of FatigueI》《International Journal of Solids and Structures》《Fatigue and Fracture of Engineering Materials and Structures》《Composite Structures》《Composite Science and Technology》《Journal of Reinforced Plastics and Composites》《The Aeronautical Journal》《Journal of Composite Materials》《航空学报》《复合材料学报》《航空制造技术》《航天环境工程》学术期刊审稿人 。

荣誉奖励

(1)上海交通大学“凯原十佳”教师,2023;

(2)上海市优秀教学成果一等奖(集体),2022;

(3)上海交通大学年度优秀员工,2021;

(4)上海交通大学 烛光奖 二等奖,2021;

(5)上海交通大学青年教师教学竞赛二等奖,2020;

(6)上海交通大学 “教学成果“ 特等奖(集体),2020;

(7)上海交通大学 “教书育人奖(集体)”二等奖,2019;

(8)太阳集团tyc151学院第二届青年教师教学竞赛一等奖,2019;

(9)太阳集团tyc151学院首届青年教师教学竞赛一等奖,2018;

(10)上海市科技英才扬帆计划 ,2017。

 

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