The mechanical response of a 6061-T6 A1/A12O3 metal matrix composite at high rates of deformation

Acta Metallurgica et Materialia Pub Date : 1995-12-01 DOI:10.1016/0956-7151(95)00123-D

S. Yadav, D.R. Chichili, K.T. Ramesh

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引用次数: 139

Abstract

The mechanical properties of a 6061-T6 aluminum alloy reinforced with a 20 vol.% fraction of alumina particles and of an unreinforced 6061-T6 alloy are studied over a range of strain rates (10^-4to 6 x 10⁵s^-1) using quasistatic compression, compression and torsion Kolsky Bars, and high strain rate pressure-shear plate impact. At a given strain rate the composite displays increased strength but essentially the same strain hardening as the matrix. However, the composite displays a stronger rate-sensitivity than does the unreinforced alloy at high rates of deformation (>10³s^-1). The rate-sensitivity of the unreinforced alloy is shown to be largely the result of the imposed strain rate rather than of the rate history. For quasistatic deformations, a model proposed by Bao et al. (1991) describes the behavior of the composite fairly accurately given the behavior of the unreinforced alloy. This paper presents an extension of the model that is able to predict the dynamic behavior of the composite given the dynamic response of the monolithic alloy.

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6061-T6 A1/A12O3金属基复合材料在高变形速率下的力学响应

采用准静态压缩、压缩和扭转科尔斯基棒以及高应变率压力剪切板冲击，研究了含20体积%氧化铝颗粒增强6061-T6铝合金和未增强6061-T6合金在应变率范围内(10-4至6 × 105s-1)的力学性能。在给定的应变速率下，复合材料表现出强度增加，但本质上与基体相同的应变硬化。然而，在高变形速率下，复合材料表现出比未增强合金更强的速率敏感性(>103s-1)。未增强合金的速率敏感性很大程度上取决于施加的应变速率，而不是速率历史。对于准静态变形，Bao等人(1991)提出的一个模型在给定未增强合金的行为的情况下，相当准确地描述了复合材料的行为。本文对该模型进行了扩展，使其能够在给定整体合金动态响应的情况下预测复合材料的动态行为。

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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Acta Metallurgica et Materialia

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