Kinetic Theory of Precipitation Processes in Solid Solutions. III(Physics)

Science reports of the Research Institutes, Tohoku University. Ser. A, Physics, chemistry and metallurgy Pub Date : 1974-10-01 DOI:10.1080/14786437408207241

M. Koiwa

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引用次数: 9

Abstract

Abstract The formation of precipitate particles in solid solutions is studied by regarding the process as comprising chain reactions, where the collision of two single solute atoms initiates the clustering. Calculations are greatly simplified if back-reactions, i.e. the decomposition of once-formed particles, are completely neglected. The reaction constant for particle growth are considered to be dependent on the size of particles, and the dependence is different for different growth mechanisms. The kinetics are examined for the two cases, size-independent and size-dependent (proportional to the number of solute atoms in the respective particle) reaction constants; the behaviour of actual systems may be inferred from the results of these two imaginary cases. The resultant distribution of particle size is very different for the two cases, especially when the rate for the initiation of the chain reactions is slow in comparison to those for subsequent reactions; for the latter case (size-dependent) the distr...

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固溶体中沉淀过程的动力学理论。三世(物理)

摘要:本文研究了固溶体中沉淀颗粒的形成过程，将其视为链式反应，其中两个单一溶质原子的碰撞引发了聚类。如果完全忽略反反应，即一旦形成的粒子的分解，计算就会大大简化。颗粒生长的反应常数被认为与颗粒的大小有关，不同的生长机制对反应常数的依赖性不同。动力学检查了两种情况下，尺寸无关和尺寸相关(成比例的溶质原子的数量在各自的粒子)的反应常数;实际系统的行为可以从这两个假想情况的结果中推断出来。在这两种情况下，所得到的粒度分布是非常不同的，特别是当链反应的起始速度比随后的反应慢时;对于后一种情况(取决于大小)，distr…

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Science reports of the Research Institutes, Tohoku University. Ser. A, Physics, chemistry and metallurgy

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