Microstructure and mechanical properties of hybrid nano-titanium carbide-carbon nanotubes (nano-TiC-CNT) reinforced aluminium matrix composite

IF 1.8 3区材料科学 Q3 MATERIALS SCIENCE, COMPOSITES

Advanced Composite Materials Pub Date : 2023-10-12 DOI:10.1080/09243046.2023.2253097

Peter Nyanor, Hossam M. Yehia, Abdollah Bahador, Junko Umeda, Katsuyoshi Kondoh, Mohsen A. Hassan

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Abstract

AbstractTo use Al composites in structural applications, we need to improve strength and ductility at the same time. In this article, we explore three main concepts to solve this problem: improving the dispersion uniformity of CNTs in Al powder without damaging its structure by solution coating technique, fabricating a hybrid composite by reinforcing Al with nano-TiC-CNT, comparing the properties of nano-TiC-CNT and micron-TiC-CNT hybrid composites. Microstructure observation by SEM, TEM, and XRD revealed well-dispersed and preserved CNTs without the formation of a second phase. The Al-0.5CNT composite showed good tensile strength and elongation at break of 278 MPa and 14%, respectively. Further improvements in tensile strength and ductility of 285 MPa and 23%, respectively, were measured after the addition of 2.5 wt%; (1.4 vol%) TiC nanoparticles to Al-0.5CNT composite. However, the introduction of 2.5 wt-% TiC macroparticles only improved the tensile strength by 48% but elongation at break was up to 32%. The improved strength and ductility are attributed to the introduction of geometrical necessary dislocation and Orowan looping of dislocations leading to back stress strengthening. The new Al composite is expected to find application in automotive and aerospace component manufacture and thermal management.Keywords: Aluminium matrix compositestitanium carbide nanoparticlescarbon nanotubes (CNT)strength-ductilitysolution coating process Disclosure statementNo potential conflict of interest was reported by the author(s).

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纳米碳化钛-碳纳米管杂化增强铝基复合材料的微观结构和力学性能

摘要铝复合材料在结构上的应用，需要同时提高其强度和延展性。在本文中，我们探讨了解决这一问题的三个主要概念:通过溶液涂层技术提高碳纳米管在Al粉末中的分散均匀性而不破坏其结构;通过纳米tic - cnt增强Al制备杂化复合材料;比较纳米tic - cnt和微米tic - cnt杂化复合材料的性能。通过SEM、TEM和XRD观察发现，CNTs分散完好，未形成第二相。Al-0.5CNT复合材料具有良好的抗拉强度和断裂伸长率，分别为278 MPa和14%。添加2.5% wt%后，拉伸强度和塑性进一步提高，分别达到285 MPa和23%;(1.4 vol%) TiC纳米颗粒to Al-0.5CNT复合材料。然而，引入2.5 wt-%的TiC大颗粒只提高了48%的拉伸强度，但断裂伸长率高达32%。强度和延性的提高是由于引入了几何必要的位错和位错的Orowan环导致背应力增强。新的铝复合材料有望在汽车和航空航天部件制造和热管理中找到应用。关键词:铝基复合材料碳化物纳米颗粒碳纳米管(CNT)强度-延展性溶液涂层工艺披露声明作者未报告潜在利益冲突。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Composite Materials 工程技术-材料科学：复合

CiteScore

5.00

自引率

20.70%

发文量

审稿时长

3 months

期刊介绍： "Advanced Composite Materials (ACM), a bi-monthly publication of the Japan Society for Composite Materials and the Korean Society for Composite Materials, provides an international forum for researchers, manufacturers and designers who are working in the field of composite materials and their structures. Issues contain articles on all aspects of current scientific and technological progress in this interdisciplinary field. The topics of interest are physical, chemical, mechanical and other properties of advanced composites as well as their constituent materials; experimental and theoretical studies relating microscopic to macroscopic behavior; testing and evaluation with emphasis on environmental effects and reliability; novel techniques of fabricating various types of composites and of forming structural components utilizing these materials; design and analysis for specific applications. Advanced Composite Materials publishes refereed original research papers, review papers, technical papers and short notes as well as some translated papers originally published in the Journal of the Japan Society for Composite Materials. Issues also contain news items such as information on new materials and their processing."