Compression Causes Expansion and Compaction of the Jammed Polydisperse Particles

Daisuke S. Shimamoto, Miho Yanagisawa
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Abstract

This study focused on the expansion in polydisperse granular materials owing to mechanical annealing, which involved compression and decompression. Following minor annealing, the polydisperse systems exhibited compaction as well as the systems having uniform-sized particles. However, following extensive annealing, only the polydisperse systems were observed to expand. Pressure history and structure analysis indicated that this expansion results from the size segregation of the particles. We attribute this segregation to particle-size-dependent effective attraction. The results of this study highlight the strong history dependence of the packing fraction and structure in polydisperse particles and reveal a potential-energy-driven segregation mechanism.
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压缩导致多分散颗粒膨胀和压实
这项研究的重点是多分散颗粒材料在机械退火(包括压缩和减压)过程中产生的膨胀。在轻微退火后,多分散体系与具有均匀尺寸颗粒的体系一样表现出压实。压力历史和结构分析表明,这种膨胀是颗粒尺寸偏析造成的。我们将这种偏析归因于颗粒尺寸相关的有效吸引力。这项研究的结果突显了多分散粒子中堆积分数和结构的强烈历史依赖性,并揭示了一种势能驱动的偏析机制。
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