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首页> 外文期刊>International Journal for Multiscale Computational Engineering >FINITE-ELEMENT ANALYSIS OF GRAIN-MATRIX MICRO-CRACKING IN SHALE WITHIN THE CONTEXT OF A MULTISCALE MODELING APPROACH FOR FRACTURE
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FINITE-ELEMENT ANALYSIS OF GRAIN-MATRIX MICRO-CRACKING IN SHALE WITHIN THE CONTEXT OF A MULTISCALE MODELING APPROACH FOR FRACTURE

机译:多尺度裂缝模拟方法中页岩颗粒微裂纹的有限元分析

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The paper models grain-scale micro-cracking in shale at grain-matrix interfaces, assuming constituents are composed of quart silt grains and compacted clay matrix for a typical shale. The influence of the grain-matrix-grain interaction on micro-crack patterns is investigated. Elasto-plastic pressure-sensitive cohesive-surface models are inserted at grain-matrix interfaces and intra-clay-matrix finite-element facets. A bulk elasto-plasticity model with bifurcation, but currently no post-bifurcation constitutive model, is employed for the clay matrix to compare to the intra-clay-matrix cohesive-surface model. Numerical examples are presented under two-dimensional plane strain condition at small strains.
机译:本文假设页岩中颗粒尺度的微裂纹在颗粒-基质界面处建立模型,并假设典型的页岩成分由夸脱粉砂颗粒和压实的粘土基质组成。研究了晶粒-基体-晶粒相互作用对微裂纹模式的影响。弹塑性压敏粘性表面模型被插入到晶粒-矩阵界面和内部粘土-矩阵有限元面。将具有分叉的本体弹塑性模型(但目前尚无分叉后的本构模型)用于黏土基质,以与黏土内部矩阵内聚力表面模型进行比较。在二维平面应变条件下以小应变给出了数值示例。

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