Effect of gradient nanostructures on the damage mechanism of aermet100 steel at various strain rates

Journal of Physics: Conference Series Pub Date : 2024-06-01 DOI:10.1088/1742-6596/2730/1/012048
Yabin Yan, Jiancheng Yao, Bolong Wang, Long Zhen
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Abstract

The introduction of nano-scale grains, which form a gradient nanostructure (GNS) within the material, usually increases the service life of metallic materials. In this study, the uniaxial tensile mechanical properties of AerMet100 steel in initial and GNS states under different strain rate conditions were compared, and the microanalysis of tensile fracture was performed. It is found that GNS has little effect on the mechanical properties of AerMet100 but has an effect on its damage mode. The initial AerMet100 was basically ductile fracture, and GNS increased the brittle fracture mode in AerMet100.
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梯度纳米结构对不同应变速率下 aermet100 钢损坏机制的影响
在材料中引入纳米级晶粒,形成梯度纳米结构(GNS),通常会延长金属材料的使用寿命。本研究比较了 AerMet100 钢在不同应变速率条件下初始状态和 GNS 状态下的单轴拉伸力学性能,并对拉伸断口进行了显微分析。研究发现,GNS 对 AerMet100 的力学性能影响不大,但对其破坏模式有影响。最初的 AerMet100 基本上是韧性断裂,而 GNS 增加了 AerMet100 的脆性断裂模式。
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Journal of Physics: Conference Series
Journal of Physics: Conference Series
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