Impact of Thermal Diffusion on Densification During SPS

材料科学 合并(业务) 放电等离子烧结 烧结 蠕动 晶界扩散系数 热扩散率 陶瓷 扩散蠕变 晶界 表面张力 热的 复合材料 法律工程学 热力学 微观结构 物理 会计 工程类 业务
作者
Eugene A. Olevsky,Ludo Froyen
出处
期刊:Journal of the American Ceramic Society [Wiley]
卷期号:92 (s1) 被引量:209
标识
DOI:10.1111/j.1551-2916.2008.02705.x
摘要

Spark‐plasma sintering (SPS) has the potential for rapid (with heating rates reaching several hundred K/min) and efficient consolidation of a broad spectrum of powder materials. Possible mechanisms of the enhancement of consolidation in SPS versus conventional techniques of powder processing are categorized with respect to their thermal and athermal nature. This paper analyzes the influence of thermal diffusion, which is an SPS consolidation enhancement factor of a thermal nature. The Ludwig–Soret effect of thermal diffusion causes concentration gradients in two‐component systems subjected to a temperature gradient. The thermal diffusion‐based constitutive mechanism of sintering results from the additional driving force instigated by spatial temperature gradients, which cause vacancy diffusion. This mechanism is a commonly omitted addition to the free‐surface curvature‐driven diffusion considered in conventional sintering theories. The interplay of three mechanisms of material transport during SPS is considered: surface tension‐ and external stress‐driven grain‐boundary diffusion, surface tension‐ and external stress‐driven power‐law creep, and temperature gradient‐driven thermal diffusion. It is shown that the effect of thermal diffusion can be significant for ceramic powder systems. Besides SPS, the results obtained are applicable to the ample range of powder consolidation techniques, which involve high local temperature gradients. The case study conducted on the alumina powder SPS demonstrates the correlation between the modeling and experimental data. It is noted that this study considers only one of many possible mechanisms of the consolidation enhancement during SPS. Further efforts on the modeling of field‐assisted powder processing are necessary.

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