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大变形下的泡沫流变性。

Foam rheology at large deformation.

机构信息

Université Lyon, Ens de Lyon, Université Claude Bernard, CNRS, Laboratoire de Physique, Lyon F-69342, France.

Departamento de Física Universidad de Santiago de Chile and SMAT-C, Avenida Ecuador 3493, Estación Central 9170124, Santiago, Chile.

出版信息

Phys Rev E. 2018 Apr;97(4-1):042601. doi: 10.1103/PhysRevE.97.042601.

Abstract

Large deformations are prone to cause irreversible changes in materials structure, generally leading to either material hardening or softening. Aqueous foam is a metastable disordered structure of densely packed gas bubbles. We report on the mechanical response of a foam layer subjected to quasistatic periodic shear at large amplitude. We observe that, upon increasing shear, the shear stress follows a universal curve that is nearly exponential and tends to an asymptotic stress value interpreted as the critical yield stress at which the foam structure is completely remodeled. Relevant trends of the foam mechanical response to cycling are mathematically reproduced through a simple law accounting for the amount of plastic deformation upon increasing stress. This view provides a natural interpretation to stress hardening in foams, demonstrating that plastic effects are present in this material even for minute deformation.

摘要

大变形容易导致材料结构发生不可逆的变化,通常会导致材料变硬或变软。水泡沫是一种密集排列的气泡的亚稳态无序结构。我们报告了在大振幅准静态周期性剪切下泡沫层的力学响应。我们观察到,随着剪切的增加,剪切应力遵循一个几乎呈指数增长的通用曲线,并趋于一个渐近应力值,该值被解释为泡沫结构完全重构的临界屈服应力。通过一个简单的定律,考虑了应力增加时的塑性变形量,数学上再现了泡沫对循环的机械响应的相关趋势。这种观点为泡沫中的应力硬化提供了一种自然的解释,表明即使是微小的变形,这种材料中也存在塑性效应。

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