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马凌越

创建时间:  2019-03-02  裴志茹   浏览次数:

姓名:马凌越

办公室:延长校区力学所304

通信地址:上海市延长路149号力学所304,邮编:200072

电子邮件:lingyuema@shu.edu.cn


【工作经历】

2024/12 至今,上海大学,力学与工程科学学院,副教授

2022/07-2024/07,以色列特拉维夫大学,机械工程学院,博士后


【教育经历】

2016/09-2022/03 上海交通大学,机械工程,工学博士

2014/09-2014/12 新加坡科技设计大学,交流访问

2012/09-2016/06 浙江大学,机械工程及其自动化,工学学士


【研究方向】

脆性断裂理论

三维裂纹仿真分析

单晶体多尺度断裂模型

计算机辅助失效分析


【发表论文(近五年)】

[1] L. Ma, H. Sagi, R. Eliasy, and D. Sherman. “The Griffith barrier, initiation, and arrest energies by stable cracks.” International Journal of Mechanical Sciences, 287: 109947, 2025.

[2] L. Ma, and D. Sherman. “A search for the upper bound of the cleavage energy of silicon crystal.” Engineering Fracture Mechanics, 299: 109966, 2024.

[3] L. Ma, and R. Dugnani. “Flexural strength estimation in edge-damaged silicate glass plates by combined phase-field and visual analysis.” Journal of the European Ceramic Society, 44(3): 1806-1813, 2024.

[4] M. Shaheen-Mualim, G. Kovel, F. Atrash, L. Ben-Bashat-Bergman, A. Gleizer, L. Ma, and D. Sherman. “From macro fracture energy to micro bond-breaking mechanisms – Shorter is tougher.” Engineering Fracture Mechanics, 289: 109447, 2023.

[5] L. Ma, M. Mollaali, and R. Dugnani. “Phase–field simulation of fractographic features formation in soda–lime glass beams fractured in bending.” Theoretical and Applied Fracture Mechanics, 127: 103997, 2023.

[6] A. Jafari, L. Ma, A. Ali Shahmansouri, and R. Dugnani. “Quantitative fractography for brittle fracture via multilayer perceptron neural network.” Engineering Fracture Mechanics, 291: 109545, 2023.

[7] R. Dugnani, and L. Ma. “Stress intensity factor by combined perturbation method and universal weight functions.” Theoretical and Applied Fracture Mechanics, 126: 103994, 2023.

[8] L. Ma, and R. Dugnani. “The crack shape evolution in unstable, flexural fractures for soda-lime glass beams by phase-field analysis.” Engineering Fracture Mechanics, 272: 108677, 2022.

[9] L. Ma, and R. Dugnani. “Analytical description of unstable, rugose, circular cracks in brittle solids.” Archive of Applied Mechanics, 92: 3923-2941, 2022.

[10] L. Ma, A. Moulins, and R. Dugnani. “Analytical description of fracture features in single crystal silicon.” European Journal of Mechanics / A-Solids, 87: 104203, 2021.

[11] L. Ma, D. Djurdjanovic, and R. Dugnani. “Statistical accuracy of fractographic estimation in silicate glasses with design of experiments and pairwise T-tests.” Engineering Failure Analysis, 116: 104699, 2020.

[12] L. Ma, and R. Dugnani. “Fractographic analysis of silicate glasses by computer vision.” Journal of the European Ceramic Society, 40: 3291-3303, 2020.

[13] L. Ma, H. Sun, and R. Dugnani. “Shape evolution of unstable, flexural cracks in brittle materials.” Journal of Materials Engineering and Performance, 29: 1311-1320, 2020.

[14] A. Moulins, L. Ma, R. Dugnani, and R. Zednik. “Dynamic crack modeling and analytical stress field analysis in single-crystal silicon using quantitative fractography.” Theoretical and Applied Fracture Mechanics, 109: 102693, 2020.

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马凌越

创建时间:  2019-03-02  裴志茹   浏览次数:   

姓名:马凌越

办公室:延长校区力学所304

通信地址:上海市延长路149号力学所304,邮编:200072

电子邮件:lingyuema@shu.edu.cn


【工作经历】

2024/12 至今,上海大学,力学与工程科学学院,副教授

2022/07-2024/07,以色列特拉维夫大学,机械工程学院,博士后


【教育经历】

2016/09-2022/03 上海交通大学,机械工程,工学博士

2014/09-2014/12 新加坡科技设计大学,交流访问

2012/09-2016/06 浙江大学,机械工程及其自动化,工学学士


【研究方向】

脆性断裂理论

三维裂纹仿真分析

单晶体多尺度断裂模型

计算机辅助失效分析


【发表论文(近五年)】

[1] L. Ma, H. Sagi, R. Eliasy, and D. Sherman. “The Griffith barrier, initiation, and arrest energies by stable cracks.” International Journal of Mechanical Sciences, 287: 109947, 2025.

[2] L. Ma, and D. Sherman. “A search for the upper bound of the cleavage energy of silicon crystal.” Engineering Fracture Mechanics, 299: 109966, 2024.

[3] L. Ma, and R. Dugnani. “Flexural strength estimation in edge-damaged silicate glass plates by combined phase-field and visual analysis.” Journal of the European Ceramic Society, 44(3): 1806-1813, 2024.

[4] M. Shaheen-Mualim, G. Kovel, F. Atrash, L. Ben-Bashat-Bergman, A. Gleizer, L. Ma, and D. Sherman. “From macro fracture energy to micro bond-breaking mechanisms – Shorter is tougher.” Engineering Fracture Mechanics, 289: 109447, 2023.

[5] L. Ma, M. Mollaali, and R. Dugnani. “Phase–field simulation of fractographic features formation in soda–lime glass beams fractured in bending.” Theoretical and Applied Fracture Mechanics, 127: 103997, 2023.

[6] A. Jafari, L. Ma, A. Ali Shahmansouri, and R. Dugnani. “Quantitative fractography for brittle fracture via multilayer perceptron neural network.” Engineering Fracture Mechanics, 291: 109545, 2023.

[7] R. Dugnani, and L. Ma. “Stress intensity factor by combined perturbation method and universal weight functions.” Theoretical and Applied Fracture Mechanics, 126: 103994, 2023.

[8] L. Ma, and R. Dugnani. “The crack shape evolution in unstable, flexural fractures for soda-lime glass beams by phase-field analysis.” Engineering Fracture Mechanics, 272: 108677, 2022.

[9] L. Ma, and R. Dugnani. “Analytical description of unstable, rugose, circular cracks in brittle solids.” Archive of Applied Mechanics, 92: 3923-2941, 2022.

[10] L. Ma, A. Moulins, and R. Dugnani. “Analytical description of fracture features in single crystal silicon.” European Journal of Mechanics / A-Solids, 87: 104203, 2021.

[11] L. Ma, D. Djurdjanovic, and R. Dugnani. “Statistical accuracy of fractographic estimation in silicate glasses with design of experiments and pairwise T-tests.” Engineering Failure Analysis, 116: 104699, 2020.

[12] L. Ma, and R. Dugnani. “Fractographic analysis of silicate glasses by computer vision.” Journal of the European Ceramic Society, 40: 3291-3303, 2020.

[13] L. Ma, H. Sun, and R. Dugnani. “Shape evolution of unstable, flexural cracks in brittle materials.” Journal of Materials Engineering and Performance, 29: 1311-1320, 2020.

[14] A. Moulins, L. Ma, R. Dugnani, and R. Zednik. “Dynamic crack modeling and analytical stress field analysis in single-crystal silicon using quantitative fractography.” Theoretical and Applied Fracture Mechanics, 109: 102693, 2020.

教育部长江学者特聘教授 杰青
优青

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