Phase transitions and correlations in fracture processes where disorder and stress compete

S. Sinha, Subhadeep Roy, A. Hansen
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引用次数: 7

Abstract

We study the effect of the competition between disorder and stress enhancement in fracture processes using the local load sharing fiber bundle model, a model that hovers on the border between analytical tractability and numerical accessibility. We implement a disorder distribution with one adjustable parameter. The model undergoes a localization transition as a function of this parameter. We identify an order parameter for this transition and find that the system is in the localized phase over a finite range of values of the parameter bounded by a transition to the non-localized phase on both sides. The transition is first order at the lower transition and second order at the upper transition. The critical exponents characterizing the second order transition are close to those characterizing the percolation transition. We determine the spatiotemporal correlation function in the localized phase. It is characterized by two power laws as in invasion percolation. We find exponents that are consistent with the values found in that problem.
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断裂过程中失序和应力竞争的相变和相关性
我们使用局部载荷共享纤维束模型研究断裂过程中无序和应力增强之间竞争的影响,该模型徘徊在解析可追踪性和数值可及性之间的边界上。我们实现了一个具有一个可调参数的无序分布。模型作为该参数的函数经历本地化转换。我们为这个过渡确定了一个有序参数,并发现系统在参数值的有限范围内处于局域相位,该范围由两侧向非局域相位的过渡所限定。下跃迁为一阶,上跃迁为二阶。表征二阶跃迁的临界指数与表征渗流跃迁的临界指数接近。我们确定了局域相位的时空相关函数。它具有入侵渗流的两个幂律特征。我们找到了与这个问题中的值一致的指数。
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