增强颗粒尺寸及其分散性对AA7075/TiB2复合材料室温干滑动磨损的影响

Q4 Materials Science

International Journal of Surface Engineering and Interdisciplinary Materials Science Pub Date : 2022-01-01 DOI:10.4018/ijseims.2022010102

V. V. Meti, G. Raju, I. G. Siddhalingeshwar, V. Gaitonde

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引用次数: 0

摘要

铝合金基金属基复合材料(AMCs)由于重量轻、强度高，在航空航天、汽车、军事和国防应用中被广泛接受。对于摩擦学应用，高性能耐磨材料如amc是候选材料。采用原位铸造和超声铸造技术制备了不同尺寸TiB2颗粒的AA7075基复合材料。采用针盘式摩擦试验机对复合材料进行了测试，研究了不同尺寸TiB2颗粒对AA7075/TiB2复合材料耐磨性能的影响。与基体合金和原位复合材料相比，UST制备的AA7075/TiB2复合材料的耐磨性得到了显著提高，这是由于晶粒尺寸的细化，减少了团聚，改善了TiB2颗粒的分布。试验结果还揭示了机械混合的Al-Zn-Fe金属间合金及其氧化物的存在。

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Role of Reinforcement Particle Size and Its Dispersion on Room Temperature Dry Sliding Wear of AA7075/TiB2 Composites

Aluminum alloy based metal matrix composites (AMCs) are widely accepted material in the aerospace, automotive, military, and defence applications due to lightweight and high strength. For tribological applications, high-performance wear-resistant materials like AMCs are the candidate materials. In this investigation, AA7075 based composites with different size TiB2 particles were fabricated using in-situ and ultrasound casting techniques (UST). The AMCs were tested using pin-on-disc tribo tester and the effects of different sized TiB2 particles on wear resistance of AA7075/TiB2 composites have been investigated. The wear resistance of AA7075/TiB2 composite fabricated using UST is found to significantly improve when compared to base alloy and also in-situ composite due to refinement in the particle size, reduced the agglomeration, and improved the distribution of TiB2 particles. The test results also revealed the existence of a mixture of mechanically mixed Al–Zn–Fe intermetallic alloy and oxides of these elements.

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来源期刊

International Journal of Surface Engineering and Interdisciplinary Materials Science Materials Science-Surfaces, Coatings and Films

CiteScore

2.60

自引率

0.00%

发文量