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个人简介 博士，校聘副研究员，2011年毕业于浙江大学过程装备与控制工程专业，获学士学位。2018年毕业于山东大学化工过程机械专业，获博士学位。主要研究方向为金属材料的超高周疲劳和非线性超声检测技术。主持国家自然科学基金青年项目1项：基于非线性超声检测的离心压缩机叶轮超高周疲劳损伤评价和寿命估算方法研究；参与国家重点基础研究发展计划（973计划）项目、国家自然科学基金、浙江省基础公益研究计划等项目；承担华鲁恒升、齐鲁一化、济南炼油厂等多项失效分析项目；发表SCI论文10余篇，授权发明专利1项。 育人成果 协助指导硕士研究生3名。 科研项目 纵向项目：1、国家自然科学基金青年项目，基于非线性超声检测的离心压缩机叶轮超高周疲劳损伤评价和寿命估算方法研究，主持2、国家重点基础研究发展计划（973计划），机械装备再制造的基础科学问题：再制造对象的多强场、跨尺度损伤行为与机理,可再制造的临界阈值，参与3、浙江省基础公益研究计划，金属材料早期损伤的非线性超声检测方法及仪器关键技术研究，参与4、国家自然科学基金面上项目，自动球压痕法测试材料力学性能的机理和普适性研究，参与横向项目：1、杭州制氧机集团股份有限公司，XS801等10台分子筛吸附器分析设计，主持2、中广核研究院有限公司，堆内构件压紧弹簧综合性能试验研究，参与3、中核二院，新型钛材及焊接接头疲劳试验研究，参与4、华鲁恒升锅炉管爆裂失效分析、齐鲁一化甲烷化炉超温失效分析、济炼重整氢压缩机活塞杆失效分析、氨泵安全阀连接螺柱失效分析等10余项设备失效分析项目，参与 科研成果 Pengfei Wang*, Weiqiang Wang, Sanlong Zheng, et al. Fatigue damage evaluation of compressor blade based on nonlinear ultrasonic nondestructive testing[J]. Journal of Marine Science and Engineering, 2021, 9(12): 1358.Pengfei Wang*, Weiqiang Wang, Ming Zhang, et al. Effects of specimen size and welded joints on the very high cycle fatigue properties of compressor blade steel KMN-I[J]. Coatings, 2021, 11(10): 1244.Pengfei Wang*, Qiwen Zhou, Bingbing Chen, et al. Research on high cycle fatigue damage characterization of FV520B steel based on the nonlinear Lamb wave[J].  The Journal of Strain Analysis for Engineering Design, 2021,11: 030932.Pengfei Wang*, Weiqiang Wang, Sanlong Zheng, et al. Research on residual life estimation method for KMN steel based on nonlinear ultrasonic Testing[J]. Applied Sciences, 2021, 11(23): 11385.Pengfei Wang, Weiqiang Wang*, Ming Zhang, et al. Fatigue behavior and mechanism of KMN in a very high cycle regime[J]. Materials Testing, 2018, 60(1): 55-60.Pengfei Wang, Weiqiang Wang*, Jianfeng Li, et al. Research on fatigue damage of compressor blade steel KMN-I using nonlinear ultrasonic testing[J]. Shock and Vibration, 2017, 4568460.Bingbing Chen, Lei Jin, Pengfei Wang*, et al. Numerical simulation study on the maximum permissible geometry deviation values for cylinders under external pressure[J]. Thin-Walled Structures, 2019, 144: 106305. (通讯作者)Bingbing Chen, Chao Wang, Pengfei Wang*, et al. Research on fatigue damage in high-strength steel (FV520B) using nonlinear ultrasonic testing[J]. Shock and Vibration, 2020, 8847704. (通讯作者)Pengfei Wang, Weiqiang Wang*, Aiju Li, et al. Effects of microstructure and inclusions on very high cycle fatigue properties of compressor blade steels[J]. Strength, Fracture and Complexity, 2017, 10(1):1-9.Pengfei Wang*, Sanlong Zheng, Bingbing Chen, et al. Research on fatigue damage characterization of compressor blade steel FV520B based on nonlinear Lamb waves[C]. 2021 International Symposium on Structural Integrity, Hangzhou, October 8-11, 2021. Pengfei Wang, Weiqiang Wang*, Jianfeng Li, et al. Research on fatigue damage of compressor blade steel KMN using nonlinear ultrasonic guided waves[C]. 14th International Conference on Fracture, Rhodes, June 18-23, 2017.Pengfei Wang, Weiqiang Wang*, Aiju Li, et al. Influence of microstructure and inclusions on very high cycle fatigue behavior of compressor blade steels[C]. International Conference on Structural Mechanics in Reactor Technology (SMiRT23), Manchester, August 10-14, 2015.Ming Zhang, Weiqiang Wang, Pengfei Wang, et al. Fatigue behavior and mechanism of FV520B-I welding seams in a very high cycle regime[J]. International Journal of Fatigue, 2016, 87: 22-37.Ming Zhang, Weiqiang Wang, Pengfei Wang, et al. The fatigue behavior and mechanism of FV520B-I with large surface roughness in a very high cycle regime[J]. Engineering Failure Analysis, 2016, 66: 432-444.Ming Zhang, Yan Liu, Weiqiang Wang, Pengfei Wang, et al. The fatigue of impellers and blades[J]. Engineering Failure Analysis, 2016, 62: 208-231.Ming Zhang, Weiqiang Wang, Pengfei Wang. Structural Integrity Analysis of Two Over-Temperature Methanation Furnaces[J]. Journal of Failure Analysis and Prevention, 2019, 19(1): 230-236. 社会服务