其他联系方式
马铭泽,博士毕业于南京航空航天大学飞行器设计专业,博士学位论文被评为南京航空航天大学优秀学位论文,校百强创新团队“飞行器结构智能化设计与性能评价团队”成员。
发表学术论文20余篇,其中以第一作者/通讯作者发表SCI论文10篇(Composite Structures,International Journal of Fatigue等);公开发明专利3项,授权发明专利2项。主持博士后面上项目1项,获评”江苏省卓越博士后“,参与国家自然科学基金重点项目、国家重大专项等科研项目多项。担任多个杂志审稿人。
研究方向为飞行器设计技术,研究领域包括:
1.金属和复合材料的疲劳与断裂
2.复合材料固化成型中的多场耦合问题
3.人工智能在结构疲劳评估中的应用
4.数值仿真方法在工程结构中的应用等
所在课题组负责人为航空航天领域著名专家——姚卫星教授,团队拥有优质的科研条件和良好的科研氛围。
课题组其他老师:
招收硕士研究生,欢迎有志于航空航天民航通航事业的同学加入我们团队!
邮箱:mamingze@nuaa.edu.cn
手机:18018029293
主要期刊论文
[1] Ma Mingze, Yao Weixing, Chen Yan, Critical energy release rate for facesheet/core delamination of sandwich panels. Engineering Fracture Mechanics, 2018. 204: p. 361-368.
[2] Ma Mingze, Yao Weixing, Li Piao. Critical Energy Release Rate for Interface Delamination of Asymmetrical Specimen. Composite Structures, 2020, 237:111919.
[3] Ma Mingze, Yao Weixing, Jiang Wen, Jin Wei, Chen Yan, Li Piao, Fatigue Behavior of Composite Sandwich Panels Under Three Point Bending Load. Polymer Testing, 2020. 91: p. 106795.
[4] Ma Mingze, Yao Weixing, Jiang Wen , Jin Wei, Chen Yan, Li Piao. A multi-area fatigue damage model of composite honeycomb sandwich panels under three-point bending load[J]. Composite Structures, 2021, 261:113603.
[5] Ma Mingze, Yao Weixing, Jiang Wen , Jin Wei, Chen Yan, Li Piao, Huang Jie. Fatigue of composite honeycomb sandwich panels under random vibration load[J], Composite Structures, 2022, 286: 115296.
[6] Ma Mingze, Zhou Zhiqiang, Jiang Wen, Yao Weixing, Li Piao. Experimental and numerical study on DCB specimens bonded with similar and dissimilar materials. Heliyon, 2022. 8(10): p. e11037.
[7] Ma Mingze, Wu Tao, Yao Weixing, Ye Ti, Li Piao, Experimental and numerical study on fracture behavior of SiC particle reinforced aluminum matrix composites based on Gurson–Tvergaard–Needleman damage model. Fatigue & Fracture of Engineering Materials & Structures, 2022.
[8] Li Piao, L. Susmel and Ma Mingze*, The life prediction of notched aluminum alloy specimens after laser shock peening by TCD. International Journal of Fatigue, 2023: p. 107795.
[9] Ma Mingze, Li Piao, Ye Ti, et al. Study on the failure behavior of Nomex honeycomb sandwich panels under three-point bending load: Experiments and meso-scale simulation[J]. Journal of Sandwich Structures & Materials, 2024;26(4):417-430.
[10] Ma Mingze, Lin Hanyu, Zhou Zhiqiang, Huangjie. Research on the equivalent stretching mechanical properties of Nomex honeycomb core considering the effect of resin coating. Science and Engineering of Composite Materials, 2024. 31(1; 20240039).
[11] Lin Hanyu, Cao Jing, Yao Weixing, Ma Mingze, Wu Tao. Probabilistic fatigue cumulative damage model considering the randomness of load and material properties[J]. Engineering Failure Analysis, 2023, 154: 107693.
[12] Danhui Yang, Mingze Ma, Viska Wei, et al. Multiscale modelling for fatigue crack propagation of notched laminates using the UMAP clustering algorithm[J]. Thin-Walled Structures, 2024, 199: 111819.
[13] Jiang Wen, Yao Weixing, Li Piao, Ma Mingze. On the Effective Elastic Properties of SiC/Al Metal Matrix Composite within an Intermingled Fractal Units Model. Physics of metals and metallography, 2021. 122(13): p. 1409-1418.
[14] 马铭泽,姚卫星,陈炎.蜂窝夹芯板疲劳研究进展. 航空工程进展,2019,10(02):12-20.
[15] 叶梯, 岳源, 马铭泽. 考虑就位效应的复合材料强度分析模型及试验[J]. 复合材料科学与工程. 2021,(2):49-53.
[16] 乔巍,姚卫星,马铭泽.复合材料残余应力和固化变形数值模拟及本构模型评价.材料导报,2019,33(24):4193-4198.
[17] 姚卫星,张超,黄宇翔,陶翀骢,裘进浩,马铭泽. 基于导波原位检测的复合材料疲劳表征与寿命预测研究[J]. 航空工程进展, 2022(003):013.
[18] 姜文, 樊红星, 姚卫星, 陈方, 马铭泽. 基于损伤分形维数的树脂基复合材料冲击后压缩强度预测方法[J]. 复合材料科学与工程, 2023, (03): 11-17+26.
[19] 叶梯, 曾昭炜, 马铭泽. 褶皱对碳纤维复合材料层合板压缩性能的影响[J]. 宇航材料工艺, 2022, 52 (05): 48-53.
[20] Mingze Ma, Ya Ding, Hanyu Lin, et al. Failure Analysis of Particle Reinforced Aluminum Matrix Composite With a Microscopic Mechanical Model Using Modified GTN Model. Applied Composite Materials, 2025. 32(4): p. 1835-1856.
[21] Jing Cao, Yitao Wu, Qia Zhao, Zuoting Liu, Mingze Ma*. Small load omission method for the fatigue load spectrum of multi-detail hybrid structure, Structures, Volume 80, 2025, 110093,
[22] Yang, D., Yang, Y., Zhou, F. et al. Hydrocyclone-enhanced scalable photocatalytic hydrogen generation, from macroscale turbulence to nanoscale reaction dynamics. Nat Commun (2026). https://doi.org/10.1038/s41467-026-68895-2
[23] 马铭泽, 姚卫星, 许笛枫. 蜂窝夹芯板的疲劳失效模式与疲劳损伤过程[C]//第十九届全国疲劳与断裂学术会议. 沈阳市. 2018:259-259.
