DAMAGE EVOLUTION DURING MICROCRACKING OF BRITTLE SOLIDS

A. ZIMMERMANN; W. C. CARTER; E. R. FULLER Jr

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DAMAGE EVOLUTION DURING MICROCRACKING OF BRITTLE SOLIDS

机译：脆性固体微裂纹过程中的损伤演化

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Microcracking due to thermal expansion and elastic anisotropy is examined via computer simula- tions with a microstructural--based finite element model. Random polycrystalline microstructures are generated via Monte Carlo Potts-model simulations. Microcrack formation and propagation due to thermal expansion anisotropy is investigated in these microstructures using a Griffith-type failure criterion in a microstructural- based finite element model called OOF. Effects of the grain size distribution on the accumulation of microcrack damage, as well as on the threshold for microcrack initiation, are analysed. Damage evolution is rationalised by statistical considerations, i.e. damage accumulation is correlated with the statistical distri- butions of microstructural parameters.

机译：通过基于微观结构的有限元模型的计算机模拟，可以检查由于热膨胀和弹性各向异性引起的微裂纹。随机多晶微结构是通过蒙特卡洛·波特模型模拟生成的。在基于微结构的有限元模型（称为OOF）中，使用格里菲斯（Griffith）型破坏准则，在这些微结构中研究了由于热膨胀各向异性导致的微裂纹形成和传播。分析了晶粒尺寸分布对微裂纹损伤累积以及微裂纹萌生阈值的影响。通过统计考虑合理化损伤演化，即损伤累积与微观结构参数的统计分布相关。

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来源
《Acta Materialia 》 |2001年第1期| p.127-137| 共11页
作者
A. ZIMMERMANN; W. C. CARTER; E. R. FULLER Jr;
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正文语种 eng
中图分类一般性问题 ; 冶炼原料及矿石预处理 ; 金属材料 ;
关键词
Spontaneous microcracking; Computer simulation; Thermal expansion;

机译：自发微裂纹;计算机仿真;热膨胀;

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1. Compression induced shear damage in brittle solids by scattered microcracking [J] . Akihide Saimoto, Akira Toyota, Yasufumi Imai International Journal of Fracture . 2009 ,第1a2期

机译：压缩引起的脆性固体剪切应力的分散微裂纹
2. Compression induced shear damage in brittle solids by scattered microcracking [J] . Akihide Saimoto, Akira Toyota, Yasufumi Imai International Journal of Fracture . 2009 ,第1a2期

机译：压缩引起的脆性固体剪切应力的分散微裂纹
3. Compression induced shear damage in brittle solids by scattered microcracking [J] . Akihide Saimoto, Akira Toyota, Yasufumi Imai International Journal of Fracture . 2009 ,第1a2期

机译：分散的微裂纹压缩引起的脆性固体剪切损伤
4. Three-Parameter Damage Evolution for Quasi-Brittle Solids [C] . ZHANG Ji International Conference on Civil Engineering, Architecture and Building Materials . 2014

机译：三种脆性固体的三参数损伤演化
5. Damage and fracture of brittle viscoelastic solids with application to ice load models. [D] . Xiao, Jing. 1997

机译：脆性粘弹性固体的破坏和破裂，并应用于冰荷载模型。
6. An Energy-Equivalent d+/d− Damage Model with Enhanced Microcrack Closure-Reopening Capabilities for Cohesive-Frictional Materials [O] . Miguel Cervera, Claudia Tesei 2017

机译：具有内聚摩擦材料的增强的微裂纹闭合-重新打开能力的等效能量d + / d-损伤模型
7. 3-D Mesomechanical Analysis of Brittle Microcracking Solids and Improvement of Damage Mechanics Models. 2nd Report, Anisotropic Damage Mechanics Model. [O] . Yutaka Toi, Takanori Kiyosue 1993

机译：脆性微裂纹固体的3-D型机械分析及损伤力学模型的改进。第二报告，各向异性损伤力学模型。
8. Dynamic Damage Evolution of Solids in Compression: Microcracking, Plastic Flow,and Brittle-Ductile Transition [R] . Deng, H., Nemat-Nasser, S. 1994

机译：压缩中固体的动态损伤演变：微裂纹，塑性流动和脆韧 - 韧性转变

DAMAGE EVOLUTION DURING MICROCRACKING OF BRITTLE SOLIDS

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