尖端聚合物/碳质纳米增强纳米复合材料--太空领域的机遇

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Advances in Materials Science Pub Date : 2023-12-01 DOI:10.2478/adms-2023-0025
Ayesha Kausar, Ishaq Ahmad
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引用次数: 0

摘要

摘要 碳质或纳米碳纳米增强纳米复合材料已成为航空航天工业的新兴候选材料。因此,人们利用石墨烯、碳纳米管、富勒烯、炭黑等奇妙的纳米碳纳米结构制造出了多功能纳米复合材料。人们还利用制造技术来形成具有高强度、热稳定性、阻燃性和其他空间所需特性的高性能工程纳米复合材料。这些做法包括溶液法、原位法和熔融法,以及用于形成航空航天结构的特定空间结构设计技术。使用各种碳质纳米增强材料提高航空航天相关材料的性能取决于纳米碳的类型、尺寸以及这些纳米结构的固有特征(此外还有制造方法的选择)。此外,除了碳纤维,环氧树脂基体中还填充了纳米碳增强材料。纳米碳涂层碳纤维被填充到环氧树脂中,形成了用于空间结构的高性能纳米材料。这些材料的工程特性已被实验证明适用于航空航天结构。对这些纳米材料的进一步研究可能是航空系统未来机遇的关键。此外,对碳质纳米复合材料的结构-性能关系的探索也被认为是开发先进航空航天结构所不可或缺的。
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Leading-Edge Polymer/Carbonaceous Nano-Reinforcement Nanocomposites—Opportunities for Space Sector
Abstract Carbonaceous or nanocarbon nano-reinforcement nanocomposites have been found as emergent candidates for aerospace industry. Consequently, the multifunctional nanocomposites have been fabricated using marvelous nanocarbon nanostructures like graphene, carbon nanotube, fullerene, carbon black, etc. Manufacturing techniques have also been engrossed for the formation of high performance engineering nanocomposites having fine strength, heat stability, flame resistance, and other space desired features. These practices include solution, in situ, and melt procedures, on top of specific space structural design techniques, for the formation of aerospace structures. The aerospace related material property enhancements using various carbonaceous nano-reinforcements depends upon the type of nanocarbon, dimensionality, as well as inherent features of these nanostructures (in addition to the choice of manufacturing methods). Furthermore, carbon nano-reinforcements have been filled, besides carbon fibers, in the epoxy matrices. Nanocarbon coated carbon fibers have been filled in epoxy resins to form the high performance nanomaterials for space structures. The engineering features of these materials have been experiential appropriate for the aerospace structures. Further research on these nanomaterials may be a key towards future opportunities in the aero systems. Additionally, the explorations on structure-property relationships of the carbonaceous nanocomposites have been found indispensable for the development of advanced aerospace structures.
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Advances in Materials Science
Advances in Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
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