The role of cohesive properties on intergranular crack propagation in brittle polycrystals

Shabir Z.; Van Der Giessen E.; Duarte C.A.; Simone A.

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The role of cohesive properties on intergranular crack propagation in brittle polycrystals

机译：内聚性能对脆性多晶晶间裂纹扩展的作用

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We analyze intergranular brittle cracking of polycrystalline aggregates by means of a generalized finite element method for polycrystals with cohesive grain boundaries and linear elastic grains. Many random realizations of a polycrystalline topology are considered and it is shown that the resulting crack paths are insensitive to key cohesive law parameters such as maximum cohesive strength and critical fracture energy. Normal and tangential contributions to the dissipated energy are thoroughly investigated with respect to mesh refinement, cohesive law parameters and randomness of the underlying polycrystalline microstructure.

机译：我们通过具有粘性晶粒边界和线性弹性晶粒的多晶的广义有限元方法，分析了多晶聚集体的晶间脆性开裂。考虑了多晶拓扑的许多随机实现，结果表明，产生的裂纹路径对关键的内聚法则参数（例如最大内聚强度和临界断裂能）不敏感。关于耗散能量的法向和切向贡献在网格细化，内聚规律参数和下面的多晶微结构的随机性方面进行了彻底研究。

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《Modelling and simulation in materials science and engineering》 |2011年第3期|共22页
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Shabir Z.; Van Der Giessen E.; Duarte C.A.; Simone A.;
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正文语种 eng
中图分类工程材料学;
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1. The role of cohesive properties on intergranular crack propagation in brittle polycrystals [J] . Shabir Z., Van Der Giessen E., Duarte C.A., Modelling and simulation in materials science and engineering . 2011,第3期

机译：内聚性能对脆性多晶晶间裂纹扩展的作用
2. Numerical simulation of intergranular and transgranular crack propagation in ferroelectric polycrystals [J] . Amir Abdollahi, Irene Arias International Journal of Fracture . 2012,第1期

机译：铁电多晶晶间和晶间裂纹扩展的数值模拟
3. 2D analysis of intergranular dynamic crack propagation in polycrystalline materials a multiscale cohesive zone model and dual reciprocity boundary elements [J] . Galvis A. F., Sollero P. Computers & Structures . 2016,第FEBa期

机译：多晶材料中晶间动态裂纹扩展的二维分析，多尺度内聚区模型和双互易性边界元
4. Cohesive zone model for intergranular environmental and stress assisted failure and analysis of slow crack growth in ceramic polycrystals [C] . M. Romero de la Osa, R. Estevez, C. Olagnon, International Conference on Fracture . 2009

机译：晶体环境和应力辅助故障的凝聚区模型及陶瓷多晶的缓慢裂纹增长分析
5. Numerical simulations of crack propagation driven by stress-assisted corrosion in brittle solids and composite materials. [D] . Tang, Zhibo. 2003

机译：应力辅助腐蚀在脆性固体和复合材料中驱动裂纹扩展的数值模拟。
6. A Hybrid Finite Volume and Extended Finite Element Method for Hydraulic Fracturing with Cohesive Crack Propagation in Quasi-Brittle Materials [O] . Chong Liu, Zhenzhong Shen, Lei Gan, 2018

机译：准脆性材料内聚裂纹扩展的水力压裂混合有限体积和扩展有限元方法
7. The role of cohesive properties on intergranular crack propagation in brittle polycrystals [O] . Shabir Z., Van der Giessen E., Duarte C. A., 2011

机译：内聚性能对脆性多晶晶间裂纹扩展的作用
8. Analysis of brittle intergranular crack propagation during stress corrosion cracking. [R] . R. H. Jones 1991

机译：应力腐蚀开裂过程中脆性晶间裂纹扩展分析。

The role of cohesive properties on intergranular crack propagation in brittle polycrystals

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