基本信息

杨正茂 副研究员

电话:010-82543949
邮箱:zmyang@imech.ac.cn
地址:北京市海淀区北西环西路15|100190

研究领域

面向航空航天领域对优异力学性能、特殊功能的高温材料结构的迫切需求,重点研究高温材料的本构理论、破坏理论、多尺度力学行为、新实验与计算方法,新型结构的力学设计与分析、安全寿命评估、多功能驱动的设计方法、智能技术相结合的分析方法等,具体为:

1)陶瓷基复合材料力学与结构损伤失效,疲劳与断裂;

2环境热障涂层的本征性能和环境性能相关性及机理;

3)新型飞行器、航空发动机热结构强度与损伤容限设计;

4)极端环境下多功能结构协同设计理论与性能调控方法;

招生信息

  招生专业为固体力学(080102),欢迎有力学、航空宇航科学与技术、机械工程、动力工程及工程热物理和材料科学与工程等专业背景的同学报考。

期刊论文出版信息

数据截止至20244月,以第一作者/通讯作者(#标注)发表SCI期刊论文23篇,其中,中科院期刊分区TOP期刊论文21篇,ESI高被引2篇,北京力学会优秀学术论文奖1篇,H-index因子13

  1. J. Wang, Z. Yang#, et. al. (2024). High-temperature transient-induced thermomechanical damage of fiber-reinforced ceramic-matrix composites under supersonic wind tunnel testsComposites Part A. 108243.

  2. J. Wang, Z. Yang#et. al. (2024). Representation of Thermomechanical Damage in Fiber-Reinforced Ceramic Composites at High Thermal Gradients in Supersonic Flow. AIAA Jounal. Accepted for publication.

  3. Yang, L. Shen, W. Li, Z. Zhang#Z. Yang#. (2024). Multiscale modelling for the thermal transport behaviour of ceramic matrix composites with hierarchical structuresComposites Communications. 46, 101848.

  4. J. Chen, M. Li, Kailun Li, W. Zhang#, Z. Yang#, C. Zhao, J. Ma, W. Liu#. (2023). Cracking mechanisms in additively manufactured pure tungsten from printing single tracks, thin walls and cubes. Materials & Design. 234, 112363.

  5. Z. Yang#, W. Li, Y. Chen et. al. (2023). Life Assessment of Thermomechanical Fatigue in a Woven SiC/SiC Ceramic Matrix Composite with an Environmental Barrier Coating at Elevated Temperature International Journal of Fatigue, 172, 107584 

  6. Z. Yang#, K. Pang, X. Lei et. al. (2023). A quantitative representation of damage and failure response of 3D textile SiC/SiC ceramics matrix composites subjected to flexural loading. Journal of Engineering Materials and Technology: Transactions of the ASME, 145(3): 031001(9 pages). 

  7. Z. Yang#, J. Sun,  J. Yang et. al. (2022). Mechanical behavior of woven CMCs under non-uniform  stress and strain fieldsComposite Structures, 299, 116097

  8. Z. Yang#, H. Yan, J. Yang and X. Li#. (2022). A micromechanical damage model for oxide/oxide ceramic matrix composites with hierarchical porosity under thermomechanical loading. Ceramics International, 46(9): 14045-14052. 

  9. X. Li#, M. Zhang, J. Qi, Z. Yang#, and Z. Jiao (2022). A Simulation Study on the effect of residual stress on the multi-Layer selective laser melting processes considering solid-state phase transformation. Materials, 15(20): 7175. 

  10. J. Li, Z. Yang#, G. Qian# et. al. (2022). Machine learning based very-high-cycle fatigue life prediction of Ti-6Al-4V alloy fabricated by selective laser meltingInternational Journal of Fatigue, 158, 106764. 

  11. J. Yang, and F. Jing#, and Z. Yang# K. Jiang et. al. (2021). Thermomechanical fatigue damage mechanism and life assessment of a single crystal Ni-based superalloyJournal of Alloys and Compounds, 872,159578. 

  12. Z. Yang#, and H. Yan and G. Qianet. al. (2020). Influence of hierarchical porosity on the mechanical properties of porous woven composites under thermomechanical loadingInternational Journal of Solids and Structures, 200-201, 13-22.

  13. Z. Yang#, and H. Yan (2020). Multiscale modeling and progressive failure analysis of 8-harness satin woven compositesComposite Structures, 242C, 112186.

  14. Z. Yang#, and H. Liu (2020). An elastic-plastic constitutive model for thermal shocked oxide/oxide ceramic-matrix compositesInternational Journal of Mechanical Sciences, 175C, 105528. 

  15. H. Liu, and C. Pei, and J. Yang and Z. Yang#.  (2020). Influence of long-term thermal aging on the microstructural and tensile properties of all-oxide ceramic matrix compositesCeramics International, 46(9): 14045-14052. 

  16. Z. Yang#, and H. Liu (2020). A continuum fatigue damage model for the cyclic thermal shocked ceramic-matrix compositesInternational Journal of Fatigue, 134C, 105507.  

  17. F. Jing, and J. Yang# and Z. Yanget. al. (2020). Critical compressive strain and interfacial damage evolution of EB-PVD thermal barrier coatingMaterials Science and Engineering: A, 776C, 139038. 

  18. Z. Yang#, and J. Yang (2020). Investigation of long-term thermal aging-induced damage in oxide/oxide ceramic matrix compositesJournal of the European Ceramic Society, 40(4): 1549-1556. 

  19. Z. Yang#, and H. Liu (2020). A continuum damage mechanics model for 2-D woven oxide/oxide ceramic matrix composites under cyclic thermal shocksCeramics International, 46(5): 6029-6037. 

  20. Z. Yang#, and H. Liu (2020). Effects of thermal aging on the cyclic thermal shock behavior of oxide/oxide ceramic matrix compositesMaterials Science and Engineering: A, 769C: 138494.

  21. Z. Yang, H. Liu and H. Yuan# (2019). Micro-porosity as damage indicator for characterizing cyclic thermal shock-induced anisotropic damage in oxide/oxide ceramic matrix composites. Engineering Fracture Mechanics, 220: 106669.

  22. Z. Yang, H. Yuan# and B. Markert (2019). Representation of micro-structural evolution and thermo-mechanical damage in thermal shocked oxide/oxide ceramic matrix compositesInternational Journal of Fatigue, 126: 122-129. 

  23. Z. Yang, H. Yuan# and H. Liu (2019). Evolution and characterization of cyclic thermal shock-induced thermomechanical damage in oxide/oxide ceramics matrix compositesInternational Journal of Fatigue, 120: 150-161.

  24. H. Liu, H. Yuan# and Z. Yang (2020). Damage modeling of oxide/oxide ceramic matrix composites under cyclic loading conditionsCeramics International, 46(15): 23379-23389. 

  25. H. Liu, Z. Yang and H. Yuan# (2019). A novel elastoplastic constitutive model for woven oxide/oxide ceramic matrix composites with anisotropic hardeningComposite Structures, 229, 111420. 


科研项目

(1)国家任务,共性预研项目,循环载荷作用下的推进剂累积损伤特性及失效评估研究,2023-10~2024-12主持;

(2)国家任务,稳定支持项目,典型陶瓷基复合材料元件热力耦合损伤机理及多尺度模型研究,2023-01~2026-12,主持;

(3)国家任务,航空发动机发动机管路焊接区高性能模拟计算,2023-6~2024-12主持;

(4)国家任务,环境热障涂层系统力学表征与寿命预测2023-06~2025-06主持;

(5)国家自然科学基金,循环热冲击下陶瓷基复合材料多尺度损伤演化机理与力学性能预测2022-01~2024-12主持;

(6)国家任务,新型飞行器复合材料结构宏细观结构设计与验证,2022-01~2024-12主持;

(7)中国科学院战略性先导A类专项,临近空间科学实验系统,2019-07~2023-12主要参与;