无定形固体循环驱动弹塑性模型中的自组织和记忆

arXiv - PHYS - Soft Condensed Matter Pub Date : 2024-09-11 DOI:arxiv-2409.07621

Dheeraj Kumar, Muhittin Mungan, Sylvain Patinet, Damien Vandembroucq

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引用次数: 0

摘要

无序材料（如致密悬浮液、玻璃或颗粒材料）的机械行为取决于它们的热和机械过去。在此，我们报告了淬火介观弹塑性（QMEP）模型的记忆行为。经过事先的振荡训练后，一个简单的读出协议就能获得训练协议的振幅和最后的方向。方向记忆来自于训练过程中机械极化的发展。对样本间波动的分析可直接获取不可逆转换。尽管无定形固体中的弹性相互作用具有四重性质，但仍可观察到接近于回转点记忆（RPM）的行为。利用准 RPM 特性建立了一个简单的类似普雷萨赫的定向记忆模型。

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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Self-organization and memory in a cyclically driven elasto-plastic model of an amorphous solid

The mechanical behavior of disordered materials such as dense suspensions, glasses or granular materials depends on their thermal and mechanical past. Here we report the memory behavior of a quenched mesoscopic elasto-plastic (QMEP) model. After prior oscillatory training, a simple read-out protocol gives access to both the training protocol's amplitude and the last shear direction. The memory of direction emerges from the development of a mechanical polarization during training. The analysis of sample-to-sample fluctuations gives direct access to the irreversibility transition. Despite the quadrupolar nature of the elastic interactions in amorphous solids, a behavior close to Return Point Memory (RPM) is observed. The quasi RPM property is used to build a simple Preisach-like model of directional memory.

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arXiv - PHYS - Soft Condensed Matter

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