Research Progress on Multi-functional Integration MAX Phases Modified Continuous Fiber-reinforced Ceramic Matrix Composites

Dang Xiao-Lin; Fan Xiao-Meng; Yin Xiao-Wei; Ma Yu-Zhao; Ma Xiao-Kang

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Research Progress on Multi-functional Integration MAX Phases Modified Continuous Fiber-reinforced Ceramic Matrix Composites

机译：多功能集成MAX相的研究进展改性连续纤维增强陶瓷基复合材料

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Ceramic matrix composites (CMCs) are promising candidates for application in aeroengine, aerospace aircraft thermal protection systems, nuclear power system, and other fields. At present, CMCs are developing from structural bearing materials to multi-functional composites. MAX phases are a group of layered ternary ceramics with excellent plastic deformation capacity, high electrical conductivity, good irradiation resistance and ablation resistance. Besides strengthening and toughening CMCs, the introducing MAX phases into CMCs can effectively improve the anti-irradiation, anti-ablation and electromagnetic interference shielding performance, meeting requirements of multi-functional CMCs. This paper reviewed the progress on MAX phases modified CMCs, design mechanism and application prospect.

机译：陶瓷矩阵复合材料（CMC）是在航空发动机，航空航天飞机热保护系统，核电系统和其他领域中应用的候选者。目前，CMC从结构轴承材料开发到多功能复合材料。最大阶段是一组分层三元陶瓷，具有优异的塑性变形容量，电导率高，照射性良好，抗热性耐热。除了加强和增韧CMC，将最大阶段引入CMC，可以有效地改善抗辐射，防烧蚀和电磁干扰屏蔽性能，满足多功能CMC的满足要求。本文综述了最大阶段修改了CMC，设计机制和应用前景的进展。

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来源
《Trends in Ecology & Evolution》 |2020年第1期|共6页
作者
Dang Xiao-Lin; Fan Xiao-Meng; Yin Xiao-Wei; Ma Yu-Zhao; Ma Xiao-Kang;
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作者单位

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

Northwestern Polytech Univ Sci &

Technol Thermostruct Composite Mat Lab Xian 710072 Shaanxi Peoples R China;

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原文格式 PDF
正文语种 chi
中图分类数学生态学与生物模型;
关键词
MAX phases; ceramic matrix composites; multi-functional integration; review;

机译：最大阶段;陶瓷矩阵复合材料;多功能集成;审查;

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1. Research Progress on Multi-functional Integration MAX Phases Modified Continuous Fiber-reinforced Ceramic Matrix Composites [J] . Dang Xiao-Lin, Fan Xiao-Meng, Yin Xiao-Wei, Trends in Ecology & Evolution . 2020,第1期

机译：多功能集成MAX相的研究进展改性连续纤维增强陶瓷基复合材料
2. Hysteresis loops of fiber-reinforced ceramic-matrix composites under in-phase/out-of-phase thermomechanical and isothermal cyclic loading [J] . Li Longbiao Composite interfaces . 2018,第10期

机译：纤维增强陶瓷 - 基质复合材料的滞后环在同相/超期热机械和等温循环加载下
3. Modeling Multiple-Step Loading Damage Evolution in Continuous Fiber-Reinforced Ceramic-Matrix Composites at Room and Elevated Temperatures [J] . Li Longbiao Journal of aerospace engineering . 2019,第1期

机译：在室温和高温下对连续纤维增强陶瓷基复合材料的多步载荷损伤演化建模
4. INTERLAMINAR TENSION/SHEAR PROPERTIES AND STRESS RUPTURE IN SHEAR OF VARIOUS CONTINUOUS FIBER-REINFORCED CERAMIC MATRIX COMPOSITES [C] . Sung R.Choi, Narottam P.Bansal Annual Meeting of The American Ceramic Society . 2006

机译：各种连续纤维增强陶瓷基复合材料剪切中的InterlaMINAR张力/剪切性能和应力破裂
5. Fabric orientation effects on the monotonic and fatigue behavior of continuous fiber-reinforced ceramic-matrix composites (CFCCs) [D] . Miriyala, Narendernath 1997

机译：织物取向对连续纤维增强陶瓷基复合材料（CFCC）单调和疲劳行为的影响
6. Effect of Stochastic Loading on Tensile Damage and Fracture of Fiber-Reinforced Ceramic-Matrix Composites [O] . Longbiao Li 2020

机译：随机载荷对纤维增强陶瓷基复合材料拉伸损伤和断裂的影响
7. On the effect of fiber creep-compliance in the high-temperature deformation of continuous fiber-reinforced ceramic matrix composites [O] . Baxevanis Theocharis, Plexousakis Michael 2010

机译：纤维蠕变顺应性对连续纤维增强陶瓷基复合材料高温变形的影响
8. Life Limiting Behavior in Interlaminar Shear of Continuous Fiber-Reinforced Ceramic Matrix Composites at Elevated Temperatures [R] . Choi, Sung R., Calomino, Anthony M., Bansal, Narottam P., 2006

机译：高温下连续纤维增强陶瓷基复合材料层间剪切的寿命限制行为

Research Progress on Multi-functional Integration MAX Phases Modified Continuous Fiber-reinforced Ceramic Matrix Composites

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