山羊骨灰增强AA6082铝基复合材料力学性能及试验分析

IF 1.3 4区材料科学 Q3 METALLURGY & METALLURGICAL ENGINEERING

International Journal of Cast Metals Research Pub Date : 2023-10-09 DOI:10.1080/13640461.2023.2266202

S. Rudramoorthy, N. Shankar Ganesh

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引用次数: 0

摘要

摘要:铝基复合材料是金属基复合材料的最新进展，具有满足各种新兴工程应用要求的能力。本研究旨在研究山羊骨灰(GBA)强化AA6082的力学行为。采用搅拌铸造技术，合成了不同重量百分比(0%、3%、6%和9%)的山羊骨灰作为强化元素的铝基金属基复合材料。加入3%的灰颗粒后，冲击强度提高了12%，而加入9%的灰颗粒则使硬度提高了81%。未加筋的材料抗拉强度为131 MPa，添加6%的GBA后，该数值显著提高36.6%。结果表明，增强能显著提高铝基复合材料的物理力学性能。关键词:羊骨灰颗粒，铸件，拉伸，硬度和冲击披露声明作者未报告潜在利益冲突。

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Mechanical characterisation and experimental analysis of AA6082 Aluminium metal matrix composites reinforced with goat bone ash

ABSTRACTAluminium matrix composites signify a recent advancement in the progression of metal matrix composites, possessing the capability to meet the requisites of various emerging engineering applications. This study aims to concentrate on the mechanical behaviour of AA6082, which was fortified with goat bone ash (GBA). Employing the stir casting technique for casting, aluminium-based metal matrix composites were synthesized, incorporating varied weight percentages (0%, 3%, 6%, and 9%) of goat bone ash as the strengthening element. The introduction of 3% ash particles yielded a 12% augmentation in impact strength, while an even more significant enhancement of 81% in hardness was attributed to the incorporation of 9% ash particles. The material exhibited a tensile strength of 131 MPa without reinforcement, and this value was significantly enhanced by 36.6% upon adding 6% GBA. Subsequently, it was inferred that reinforcement significantly enhanced the physical and mechanical attributes of aluminium metal matrix composites.KEYWORDS: Goat bone ash particlesstir castingtensilehardness and impact Disclosure statementNo potential conflict of interest was reported by the author(s).

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来源期刊

International Journal of Cast Metals Research 工程技术-冶金工程

CiteScore

2.70

自引率

7.10%

发文量

审稿时长

7.5 months

期刊介绍： The International Journal of Cast Metals Research is devoted to the dissemination of peer reviewed information on the science and engineering of cast metals, solidification and casting processes. Assured production of high integrity castings requires an integrated approach that optimises casting, mould and gating design; mould materials and binders; alloy composition and microstructure; metal melting, modification and handling; dimensional control; and finishing and post-treatment of the casting. The Journal reports advances in both the fundamental science and materials and production engineering contributing to the successful manufacture of fit for purpose castings.