1.个人信息:
姓名:杨亚莉 职称:副教授
专业:车辆工程 学历层次:博士研究生
办公室地点:交通大楼8B431 联系电话:13585901281
电子邮箱:carolyn71@163.com
研究方向:(1) 车用材料及零部件疲劳损伤智能检测与评估;
(2) 基于人工智能的数据驱动疲劳寿命评估与设计;
(3) 先进金属材料电致塑性研究;
主讲课程:汽车发动机构造及原理、机械制图
人才称号:上海市浦江学者
2.个人简历:
2016.01至今,威尼斯9499登录入口,威尼斯9499登录入口,副教授
2015.09-2021.06,韩国蔚山大学,机械工程,工学博士
2013.07-2013.08,美国圣克劳德州立大学,机械工程,访问学者
2002.09-2008.06, 中国农业大学,车辆工程,工学硕士
3.主要科研成果
主持上海市浦江人才计划1项、上海市委办级科研项目1项;排名第二参与国家自然基金项目1项,上海市自然基金1项;主持教学项目3项,排名第2完成上海市重点课程项目1项;排名第三获上海市级精品课程1门,获校教学成果奖1项;主编出版教材2本。在“International Journal ofFatigue”、“Failure Anaylysis”、“Theoretical and AppliedFracture Mechanics”、“Journal of Materials Engineering and Performance”等SCI期刊发表论文10余篇。
(1)代表性论文
[1] Chen H,Yang YL*, Cao SL, Gao K, Xu S, Li YF, Zhang RP. Fatigue life predictionof aluminum alloy 6061 based on defects analysis. International Journal ofFatigue, 2021,147:106189. (SCI一区)
[2] Wang C, Yang YL*, Chen H*, Xu S, LiYF, Zhang RP, Ling M. Fatigue life prediction driven by mesoscopic defect data.Engineering Applications of Artificial Intelligence, 2024.01, 131: 107773 (SCI二区)
[3] Liu XC,Yang YL*, Chen H, Li YF, Xu S, Zhang RP. Mesoscopic defect healing andfatigue lifetime improvement of 6061-T6 aluminum alloy by electropulsingtreatment. Engineering Failure Analysis, 2023,146, 107111.(SCI二区)
[4] Yang YL, XuKB, Chen H*, Li YF, Xu S, Gao K, Zhang RP. Research of optimization for crackpropagation method. Theoretical and Applied Fracture Mechanics,2022,118:103272. (SCI二区)
[5] Yang YL, ChenH, Li JW, Liu W, Shi XF, He QW, Liu YJ, Shen J *. Digital Prognosis of FatigueResidual Life of Lightweight Metallic Materials. Journal of MaterialsEngineering and Performance, 2022,31(10):8068-8083. (SCI)
[6] Yang YL, ChenH*, Feng W, Xu S, Zhang RP. Fatigue life analysis for 6061-T6 aluminum alloybased on surface roughness. PLOS ONE, 2021, 16(6): e0252772. (SCI)
[7] Bao YQ,Yang YL*, Chen H*, Li YF, Shen J, Yang SW. Multiscale Damage EvolutionAnalysis of Aluminum Alloy Based on Defect Visualization, Applied Sciences,2019, 9(23), 5251. (SCI)
[8] Yang YL, ChuSJ*, Huang WS, Chen H. Crack growth and energy release rate for an angled crackunder mixed mode loading. Applied Science, 2020, 10,4227. (SCI)
[9] Bao YQ,Yang YL*, Chen H*, Li YF, Shen J, Yang SW. Multiscale Damage EvolutionAnalysis of Aluminum Alloy Based on Defect Visualization, Applied Sciences,2019, 9(23), 5251. (SCI)
[10] YangYL,Chu SJ*, ChenH. Prediction of shape change for fatigue crack in a round barusing three-parameter growth circles. Applied Sciences, 2019, 9, 1751. (SCI)
[11] 耿美玲, 杨亚莉*, 陈浩, 王以鹏, 李永芳.6061-T6铝合金阶段性疲劳损伤试验研究. 机械强度, 2021, 43(4):821-827. (中文核心, CSCD)
(2)主要科研项目
[1]上海市浦江计划项目,人才计划项目,2022-2024,负责人
[2]汽车流媒体内后视镜性能测试服务,企业合作项目,2020-2021,负责人
[3]扭转弹簧有限元分析及高频疲劳设备开发,企业合作项目,2019-2021,负责人