2011.09-2016.11 南京理工大学,火炮、自动武器与弹药工程,博士研究生;
2012.08-2014.09 加拿大新不伦瑞克大学,机械工程,联合培养博士;
2014.10-2015.04 加拿大阿尔伯塔大学,机械工程,联合培养博士;
2007.09-2011.06 南京理工大学,工程力学,本科。
1. XXX耦合机理及损伤理论,基础加强重点项目课题,JW科技委,1150万元,2020.11-2025.11,在研,主持;
2. XX寿命预测,装发预研,装发,200万元,2022.10-2025.10,在研,主持;
3. 热-力-化学多场耦合作用下大口径火炮身管内壁跨尺度损伤机理,联合基金重点项目,国家自然科学基金委,260万元,2022.01-2025.12,在研,参与3/10;
4. 基于XXX设计方法,基础加强重点项目课题,350万元,2019.12-2024.12,在研,为主参与;
5. XXX数值模拟研究,国防科技创新特区项目子课题,JW科技委,120万元,2018.11-2020.12,结题;
6. 基于非傅里叶热传导理论的含裂纹弹带热塑性行为研究,国家自然科学基金青年科学基金项目,国家自然科学基金委,25万元,2018.1-2020.12,结题;
7. 极端环境下弹带细观结构演化及多尺度本构关系研究,江苏省自然科学基金青年基金项目,江苏省科学技术厅,20万元,2017.7-2020.6,结题;
8. XXX表面激光强化研究,中国北方工业有限公司,96万元,2018.05-2018.09,结题,为主参与;
9. 高温高应变率下弹带动态重结晶模拟及宏观特性分析,南京理工大学兵器学科青年拔尖人才计划,10万元
2017.03-2020.02,结题。
[1] JW Fu, KQ Hu, LF Qian, ZT Chen. Non-Fourier heat conduction of a functionally graded cylinder containing a cylindrical crack. Advances in Mathematical Physics, 2020.02, 2020: 1-11
[2] JW Fu, LF Qian. Heat concentration around a cylindrical interface crack in a composite tube. Advances in Mathematical Physics, 2020.06, 2020: 1-11
[3] C Zhao, J Zhang, JW Fu, Y Lian, ZJ Zhang, C Zhang, JF Huang. Low-cycle fatigue behavior of the novel steel and 30SiMn2MoV steel at 700℃. Materials, 2020, 13: 5753
[4] Akbarzadeh A, Fu J W, Chen Z T. Three-phase-lag heat conduction in a functionally graded hollow cylinder. Transactions of the Canadian Society for Mechanical Engineering. 2014, 38(1): 155-171
[5] Fu J W, Chen Z T, Qian L F, Hu K Q. Transient thermoelastic analysis of a solid cylinder containing a circumferential crack using the C-V heat conduction model. Journal of Thermal Stresses. 2014, 37(11): 1324-1345
[6] Fu J W, Chen Z T, Qian L F, Xu Y D. Non-Fourier thermoelastic behavior of a hollow cylinder with an embedded or edge circumferential crack. Engineering Fracture Mechanics. 2014, 128: 103-120
[7] Fu J W, Chen Z T, Qian L F. Coupled thermoelastic analysis of a multi-layered hollow cylinder based on the C–T theory and its application on functionally graded materials. Composite Structures. 2015, 131: 139-150
[8] Chen L M, Fu J W, Qian L F. On the non-Fourier thermal fracture of an edge-cracked cylindrical bar. Theoretical and Applied Fracture Mechanics. 2015, 80: 218-225
[9] Fu J W, Chen Z T, Qian L F, Xu Y D. Thermal fracture of cracked cylinders associated with non-classical heat conduction: the effect of material property. Journal of Thermal Stresses. 2016, 39(9): 1119-1137
[10] Fu J W, Akbarzadeh A H, Chen Z T, Qian L F, Pasini D. Non-Fourier heat conduction in a sandwich panel with a cracked foam core. International Journal of Thermal Sciences. 2016, 102: 263-273
[11] Fu J W, Akbarzadeh A H, Chen Z T, Qian L F. Analytical solutions for multilayered composite cylinders with harmonic quadratic eigenstrain in arbitrary layers. Acta Mechanica. 2014, 225(2): 465-475
[12] Akbarzadeh A H, Fu J W, Chen Z T, Qian L F. Dynamic eigenstrain behavior of magnetoelastic functionally graded cellular cylinders. Composite Structures. 2014, 116: 404-413
[13] Fu J W, Hu K Q, Chen Z T, Chen L M, Qian L F. A moving crack propagating in a functionally graded magnetoelectroelastic strip under different crack face conditions. Theoretical and Applied Fracture Mechanics. 2013, 66: 16-25
[14] Hu K Q, Chen Z T, Fu J W. Dynamic analysis of an interface crack between magnetoelectroelastic and functionally graded elastic layers under anti-plane mechanical and in-plane electro-magnetic loadings. Composite Structures. 2014, 107: 142-148
[15] Hu K Q, Chen Z T, Fu J W. Moving Dugdale crack along the interface of two dissimilar magnetoelectroelastic materials. Acta Mechanica. 2015, 226(6): 2065-2076
[16] Hu K Q, Fu J W, Yang Z J. Moving Dugdale type crack along the interface of two dissimilar piezoelectric materials. Theoretical and Applied Fracture Mechanics. 2014, 74: 157-163
[17] Akbarzadeh A H, Fu J W, Liu L, Chen Z T, Pasini D. Electrically conducting sandwich cylinder with a planar lattice core under prescribed eigenstrain and magnetic field. Composite Structures. 2016, 153: 632-644
[18] 付佳维,李延泽,陈诗雨,王昊宇. 大口径火炮身管损伤机理及寿命提升方法综述. 装备环境工程,2022,19(7):10-17.
[19] Yicheng Zhu, Jiawei Fu a, Linfang Qian, Jinghua Cao. A phenomenological model for plastic flow behavior of rotating band material with a large temperature range. Defence Technology, 2023.
本科生课程:
工程流体力学基础
流体力学与热工基础
炮身设计
有限元基础及应用(中/英)
研究生课程:
有限元方法理论及应用
有限元法及工程应用(江阴)
教改论文:
付佳维, 陈龙淼, 赵鹏举. 兵器专业基础力学课程体系改革的思考. 高教学刊, 2021, 7(18): 127-130