Relation between Sub-grain Size and Dislocation Density During Steady-State Dislocation Creep of Polycrystalline Cubic Metals

M. Tamura
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引用次数: 7

Abstract

The sub-grain size, d, during steady-state dislocation creep of polycrystalline metals is theoretically formulated to be inversely proportional to the dislocation density, ρ, which is defined as the number of dislocations swept out of a sub-grain divided by the cross-sectional area of the sub-grain. This dislocation density differs from the typically observed dislocation density inside a sub-grain after unloading, ρ_ob. In the current work, the ρ_ob values inside sub-grains in steadily crept specimens of Al, Cu, Fe, Fe–Mo alloy, austenitic stainless steel, and high-Cr martensitic steel reported in the literature were used to evaluate the relation ρ_ob=ηρ. It was confirmed that η≈1 for pure metals (regardless of the type of metal) crept at high temperatures and low stresses or for long durations and η>1 for Mo-containing alloys and martensitic steel crept at low temperatures and/or high stresses. Moreover, it is suggested that the condition η>1 corresponds to a state of excess immobile dislocations inside the sub-grain. The theoretical relation d_ob (≈d)∝η∙〖ρ_ob〗^(-1), where d_ob is the observed sub-grain size, essentially differs from the well-known empirical relation d_ob∝〖ρ_ob〗^(-0.5).
多晶立方金属稳态位错蠕变过程中亚晶粒尺寸与位错密度的关系
在多晶金属的稳态位错蠕变过程中,亚晶粒尺寸d在理论上与位错密度ρ成反比,其定义为从亚晶粒中扫出的位错数除以亚晶粒的横截面积。这种位错密度不同于卸载后亚晶内部典型观察到的位错密度ρ_ob。本文采用文献报道的Al、Cu、Fe、Fe - mo合金、奥氏体不锈钢和高cr马氏体钢稳定蠕变试样亚晶内的ρ_ob值来评价ρ_ob=ηρ的关系。结果表明,纯金属(无论何种金属)在高温和低应力下或长时间蠕变,η≈1,含钼合金和马氏体钢在低温和高应力下蠕变,η>1。结果表明,当η>1时,亚晶内部存在过多的不动位错。理论关系d_ob(≈d)∝η∙〖ρ_ob〗^(-1)与众所周知的经验关系d_ob(≈d)∝〖ρ_ob〗^(-0.5)有本质区别。
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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