Impact of Chromium Addition on the UTS and ETF of Aluminium Alloy AA6061 Chips Based Composite

BJ Kines National Journal of Basic Applied Sciences Pub Date : 2022-02-04 DOI:10.29169/1927-5129.2022.18.04

Chan Boon Loong, M. A. Lajis, S. Shamsudin, Nur Elisa Zainodin

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Abstract

Aluminium matrix composite has been increasingly developed due to the impressive performances demonstrated, mechanically and physically. The related properties were enhanced with the addition of reinforcing materials and this tailor-made composite can be used in the area of automotive, aerospace and military. In this study, the matrix composite was developed directly from aluminium chips without remelting through a series of hot press forging operations. This process involved heating the aluminium chip mixtures with 1 to 8 wt% chromium content above the recrystallization temperature. Then, the uniaxial force was subsequently applied onto the composite. For performance measures, the hot pressed composites were tested for the ultimate tensile strength (UTS) and elongation to failure (ETF). The composite with 2 wt % of chromium exhibits significant improvement compared to other samples, with the UTS and ETF reached to 215.37 MPa and 30.65% respectively. This sample exceeds the minimum stress and strain of stock aluminium AA6061-T4. Furthermore, the addition of chromium beyond 2 wt % would generally cause reduction of the mechanical properties of the composite.

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铬对铝合金AA6061芯片基复合材料UTS和ETF的影响

由于铝基复合材料在机械和物理方面表现出令人印象深刻的性能，因此得到了越来越多的发展。通过添加增强材料，相关性能得到了增强，这种定制的复合材料可用于汽车、航空航天和军事领域。在本研究中，通过一系列热压锻造操作，直接从铝屑中开发出基体复合材料，而无需重熔。该工艺包括加热铬含量高于再结晶温度1 - 8wt %的铝屑混合物。然后，将单轴力施加到复合材料上。对于性能指标，热压复合材料进行了极限抗拉强度(UTS)和断裂伸长率(ETF)的测试。与其他样品相比，含2 wt %铬的复合材料具有明显的改善，UTS和ETF分别达到215.37 MPa和30.65%。该样品超过了AA6061-T4铝材的最小应力和应变。此外，铬的添加量超过2 wt %通常会导致复合材料的机械性能降低。

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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BJ Kines National Journal of Basic Applied Sciences

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审稿时长

2 weeks