Cohesive zone modeling of grain boundary microcracking induced by thermal anisotropy in titanium diboride ceramics

Pezzotta M; Zhang ZL; Jensen M; Grande T; Einarsrud MA

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Cohesive zone modeling of grain boundary microcracking induced by thermal anisotropy in titanium diboride ceramics

机译：二硼化钛陶瓷中热各向异性引起的晶界微裂纹的粘结区建模

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This paper addresses the residual stresses and their effect on microcracking in polycrystalline ceramic materials. Residual stresses at microstructural level in titanium diboride ceramics, as a result of thermal expansion anisotropy, were analyzed by finite element method using Clarke's model. Damage mechanics based cohesive zone model was applied to study grain boundary microcracking, propagation and arrest. Quantitative relations between temperature variation, grain boundary energy, grain size, final microcrack length as well as microcracking temperature are established. (C) 2007 Elsevier B.V. All rights reserved.

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《Computational Materials Science》 |2008年第3期|共10页
作者
Pezzotta M; Zhang ZL; Jensen M; Grande T; Einarsrud MA;
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正文语种 eng
中图分类工程材料学;
关键词
cohesive zone modeling; thermal anisotropy; residual stresses; titanium diboride; microcracking; EXPANSION ANISOTROPY; RESIDUAL-STRESS; BRITTLE SOLIDS; CRACK-GROWTH; SIZE; MICROFRACTURE; POLYCRYSTALS; COMPOSITES; ENERGY; SHAPE;

机译：内聚力区建模;热各向异性;残余应力;二硼化钛;微裂纹;膨胀各向异性;残余应力;脆性固体;裂纹扩展;尺寸;微断裂;聚合物;复合材料;能量;形状;

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1. Cohesive zone modeling of grain boundary microcracking induced by thermal anisotropy in titanium diboride ceramics [J] . Pezzotta M, Zhang ZL, Jensen M, Computational Materials Science . 2008,第3期

机译：二硼化钛陶瓷中热各向异性引起的晶界微裂纹的粘结区建模
2. Effect of thermal mismatch induced residual stresses on grain boundary microcracking of titanium diboride ceramics [J] . Pezzotta M., Zhang Z.L. Journal of Materials Science . 2010,第2期

机译：热失配引起的残余应力对二硼化钛陶瓷晶界微裂纹的影响
3. Effect of thermal mismatch induced residual stresses on grain boundary microcracking of titanium diboride ceramics [J] . Pezzotta M., Zhang Z.L. Journal of Materials Science . 2010,第2期

机译：热失配引起的残余应力对二硼化钛陶瓷晶界微裂纹的影响
4. Multiscale Modeling of Grain- Boundary Fracture: Cohesive Zone Models Parameterized from Atomistic Simulations [C] . E. Glaessgen, D. Phillips, V. Yamakov, AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference . 2006

机译：晶界断裂的多尺度建模：从原子模拟参数化的内聚区模型
5. Thermal conductivity and electrical resistivity of cemented carbides, titanium diboride and high temperature ceramic superconductors. [D] . Frandsen, Marvin Vaun. 1988

机译：硬质合金，二硼化钛和高温陶瓷超导体的热导率和电阻率。
6. Hydrogen Embrittlement at Cleavage Planes and Grain Boundaries in Bcc Iron—Revisiting the First-Principles Cohesive Zone Model [O] . Abril Azócar Guzmán, Jeongwook Jeon, Alexander Hartmaier, 2020

机译：氢脆性在裂解平面和晶界中的BCC铁 - 重新拟合第一原理粘性区模型
7. Investigation of microcracks in ferroelectric materials by application of a grain--boundary--motivated cohesive law [O] . Utzinger, J, Menzel, Andreas, Steinmann, P 2008

机译：应用粒界法激发内聚力法研究铁电材料中的微裂纹
8. Multiscale Modeling of Grain-Boundary Fracture: Cohesive Zone Models Parameterized From Atomistic Simulations [R] . Glaessgen, Edward H., Saether, Erik, Phillips, Dawn R., 2006

机译：晶界裂缝的多尺度建模：从原子模拟参数化的粘性区模型

Cohesive zone modeling of grain boundary microcracking induced by thermal anisotropy in titanium diboride ceramics

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