Grain-Boundary Hardening in Iron and Iron Alloys

M. Braunovic, C. W. Haworth, R. T. Weiner
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引用次数: 21

Abstract

AbstractHardening at the grain boundaries in irons of various purities, and in certain iron-base alloys, has been investigated by means of a microhardness technique. The difference between the grain-boundary and grain-interior hardness values (∆H) increased as the load applied to the indenter was decreased. Zero values of ∆H were found for loads > ∼ 14 g. Factors affecting the grain-boundary hardening were studied: (a) Additions of tungsten or molybdenum reduced the grain-boundary hardness to that of the grain interior at ∼ 0.5 at.-% solute; manganese additions did not affect ∆H (b) Quenching from 900°C eliminated the hardening effect in all the materials investigated. Annealing to equilibrium at temperatures between 300 and ∼ 750°C caused a return of the hardening, the magnitude of which was independent of the annealing temperature. (c) A kinetic study of the rate of recovery of the hardening effect, following quenching from 900°C, showed that it occurs very rapidly. The conditions required for the obser...
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铁及铁合金的晶界硬化
用显微硬度技术研究了不同纯度铁和某些铁基合金的晶界硬化。随着压头载荷的减小,晶界和晶内硬度值之差(∆H)增大。载荷> ~ 14 g时,∆H为零。研究了影响晶界硬化的因素:(a)在~ 0.5 at时,加入钨或钼使晶界硬度降低到晶粒内部的硬度。- %溶质;添加锰对∆H (b)没有影响。900℃淬火消除了所有材料的硬化效应。在300至~ 750℃的温度下退火至平衡,导致硬化的恢复,其大小与退火温度无关。(c)对900°c淬火后硬化效果恢复速度的动力学研究表明,它发生得非常快。观察者所需要的条件……
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