工程力学系
电子邮件:yangfp@sjtu.edu.cn
通讯地址:WilliamHill中文官方网站WilliamHill综合实验楼A223室
个人主页:/teachers/yangfengpeng.html
1995年-1999年,西安建筑科技大学金属压力加工专业,学士
1999年-2002年,西安交通大学力学专业,硕士
2002年-2005年,WilliamHill中文官方网站力学专业,博士
2005年-至今,williamhill威廉希尔官网工程力学系,教师
2011年,日本长冈科技大学Nagaoka University of Technology,访问学者
1)疲劳损伤与断裂力学
2)复合材料力学行为
3)先进力学测试设备研制与应用
博士、硕士招生信息:
课题组每年计划招收博士和硕士生各1名,欢迎力学、材料、机械、土木等相关专业同学来信咨询。
上海市实验力学专业委员会,委员。
中国力学学会材料试验协作委员会,青年委员。
中国力学学会会员
上海市力学学会会员
主持国家自然科学基金1项,上海市自然科学基金1项。民机专项2项,核电专项2项,中船集团项目11项。
主持其他企事业委托横向项目40余项。
在Comput Struct., I.J.Fatigue, Eng. Frac. Mech.等国内外学术刊物上发表学术论文80余篇。
近年来主要发表论文:
[1] Zeng-gui Jin, Fengpeng Yang*, A generalized layerwise normal–shear deformation theory (GL-NSDT) for multilayer foam-core sandwich beams. European Journal of Mechanics - A/Solids, 2026, 116: 105932.
[2] Jiajiang Du, Zeng-gui Jin, Fengpeng Yang*, Unified strength-fatigue criterion of functionally graded hollow spheres: Gradient effects on elastoplastic and shakedown limits. Composite Structures, 2025, 371: 119425.
[3] Wentao Mao, Changhong Linghu⁎, Xiaofei Ju · K, Jimmy Hsia, Fengpeng Yang⁎, A physically based constitutive model captures the Mullins effect due to different damage mechanisms. Acta Mech, 2025.
[4] Jiajiang Du, Fengpeng Yang*, Limit and shakedown analysis of hollow spheres under monotonic and cyclic thermal loadings. International Journal of Pressure Vessels and Piping. 2025, 217: 105541.
[5] Chun Gong, Faisal Rafique⁎, Fengpeng Yang*, Broadband Sound Insulation Enhancement Using Multi-Layer Thin-Foil Acoustic Membranes: Design and Experimental Validation. Applied Sciences. 2025, 15(17): 9279.
[6] Zeng-gui Jin, Feng-peng Yang⁎, Development and experimental verification of an advanced 3D elastoplastic progressive damage model for composite materials. Advanced Composite Materials. 2024, 1-30.
[7] 刘源艺,龚浩,陈特,杨凤鹏*,6061铝合金各向异性疲劳裂纹扩展研究[J]. 力学季刊, 2024, 45(4): 911-918.
[8] Faisal Rafique⁎, Chun Gong, Song Shigong, Lu Wenbo, Wu Yunzhu, FengPeng Yang⁎. Designing and experimental validation of single-layer mixed foil resonator acoustic membrane to enhance sound transmission loss (STL) within low to medium frequency range. Applied Acoustics. 219 (2024) 109930.
[9] Hao Gong, Zeng-gui Jin, Feng-peng Yang⁎, Wen-tao Mao, Analysis of stop-hole effects on mode I-II fatigue crack behavior for Q420 steel using experiments, FEM and variable length RNN approaches. Theoretical and Applied Fracture Mechanics 124(2023), 103823.
[10] Wentao Mao, Fengpeng Yang*, Te Chen, Hao Gong, Minhan Liu, Experimental Study and Model on The Low-cycle Fatigue Behavior of Thermoplastic Vulcanizates. Fatigue Fract. Engng Mater. Struct. 2023;1-12.
[11] Zeng-gui Jin, Wen-tao Mao, Feng-peng Yang⁎, Failure analysis of sandwich beams under three-point bending based on theoretical and numerical models. Science and Engineering of Composite Materials 30(2023), secm-2022-0224.
[12] Hao Gong, Feng-peng Yang⁎, Te Chen, Zeng-gui Jin, Retardation effect on sheet steel under a mixed I-II mode overload revealed by experiment, DIC and FEM methods. Theoretical and Applied Fracture Mechanics 2022, 122:103637.
[13] Hao Gong, Feng-peng Yang⁎, Te Chen, An Improved Prediction Model on Fatigue Crack Growth Rate under Variable Amplitude Loads for Metallic Materials. Journal of Materials Engineering and Performance.2022, 31, 4735–4745.
[14] Jiang Quan*, Zhou Zhidong, Yang Fengpeng, A new approach to solve the anti-plane crack problems by the method of fundamental solutions. Engineering Analysis with Boundary Elements. 135(2022): 284-298.
[15] Cenling Huang, Ting Tan, Zhemin Wang Shimin Zhang, Fengpeng Yang, Zhiliang Lin, ZhimiaoYan*, Origami dynamics based soft piezoelectric energy harvester for machine learning assisted self-powered gait biometric identification. Energy Conversion and Management. 2022, 263, 115720.
[16] Huang C.L., Tan T., Hu X.Y., Yang F.P., Yan Z.M.*, Bio-inspired programmable multi-stable origami. Appl. Phys. Lett., 2022, 121, 051902.
[17] Huang C.L., Tan T., Wang Z.M., Nie X.C., Zhang S.M., Yang F.P., Lin Z.L., Wang B.L., Yan Z.M.*, Bistable programmable origami based soft electricity generator with inter-well modulation. Nano Energy, 2022, 103: 107775.
[18] Xiaoguang Yuan, Quan Jiang*, Zhidong Zhou, Fengpeng Yang, Stress analysis of anti-plane finite elastic solids with hole by the method of fundamental solutions using conformal mapping technique. Archive of Applied Mechanics (2022) 92, 1823-1839.
[19] Xiaoguang Yuan, Quan Jiang*, Zhidong Zhou, Fengpeng Yang, The method of fundamental solutions for analytic functions in complex analysis. AIMS Mathematics, 2022, Volume 7, Issue 4: 6820-6851.
[20] 毛文涛, 范正炼, 杨凤鹏*, 晋增贵. EPDM/PP 热塑性动态硫化橡胶高温疲劳性能研究[J]. 力学季刊, 2022, 43(3): 573-582.
[21] 蒋泉, 杨凤鹏, 周志东. 双调和方程奇异边界法的改进及在Kirchhoff板弯曲中的应用[J]. 力学季刊, 2022, 43(3): 547-559.
[22] 钱杨帆,陈特,陈一铭,杨凤鹏*,聚乙烯 I-II 复合型疲劳裂纹扩展实验研究,力学季刊2021, 42(1): 87-97.
[23] Hao Gong, Yun-chao Lu, Feng-peng Yang⁎, Te Chen, Experimental study on fatigue crack growth of QSTE420TM steel with a single dwell-overload and a combined prediction model, Journal of Constructional Steel Research. 182(2021). 1-10.
[24] Jiang Quan*, Zhou Zhidong, Chen Jubing, Yang Fengpeng, The method of fundamental solutions for two-dimensional elasticity problems based on the Airy stress function. Engineering Analysis with Boundary Elements. 130(2021). 220-237.
[25] Jiang Quan*, Zhou Zhidong, Yang Fengpeng, The transient response of hollow electrostrictive cylinder subjected to the electrical shock, Archive of Applied Mechanics, 91(2021). 4039–4051.
[26] Yun-chao Lu, Feng-peng Yang⁎, Te Chen, Hao Gong, The retardation effect of combined application of stop-hole and overload on sheet steel, I. J. Fatigue. 132(2020). 1-11.
[27] Yun-chao Lu, Te Chen, Feng-peng Yang*, Tian Lan, The Retardation Effect of Static Torsion on Fatigue Crack Growth in Strip Steel. Fatigue Fract. Engng Mater. Struct. 2020 43(8): 1800-1813.
[28] 钱杨帆,杨凤鹏*,陈特,过载作用下聚乙烯疲劳裂纹扩展行为研究,力学季刊 2020, 41: 80-90.
[29] YF Qian, F.P. Yang* T. Chen and Y.C. Lu, Experimental study on the fatigue crack growth and overload effect in MDPE. Journal of Materials Engineering and Performance.2020, 29(10): 6681–6690.
[30] 张志勇,崔毅,王一,阎心怡,杨凤鹏,王奎,基于裂纹扩展的低速柴油机机座寿命分析,机械强度,2020 42(6): 1466-1472.
工程力学实验,本科生
材料力学实验,本科生
疲劳断裂实验基础,研究生
断裂力学,研究生
现代力学测量技术(疲劳部分),研究生
