Computational modelling of brittle failure in polycrystalline materials using cohesive-frictional grain-boundary elements

机译：多聚材料脆性破坏的内聚-摩擦-摩擦晶界元计算模型

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A 3D grain-level formulation for the study of brittle failure in polycrystalline microstructures is presented. The microstructure is represented as a Voronoi tessellation and the boundary element method is used to model each crystal of the aggregate. The continuity of the aggregate is enforced through suitable conditions at the intergranular interfaces. The grain-boundary model takes into account the onset and evolution of damage by means of an irreversible linear cohesive law, able to address mixed-mode failure conditions. Upon interface failure, a non-linear factional contact analysis is introduced for addressing the contact between micro-crack surfaces. An incremental-iterative algorithm is used for tracking the micro-degradation and cracking evolution. A numerical test shows the capability of the formulation.

机译：提出了一种用于研究多晶微结构脆性破坏的3D晶粒级配方。微观结构表示为Voronoi镶嵌，边界元素方法用于模拟聚集体的每个晶体。聚集体的连续性是通过在晶间界面处的适当条件来强制执行的。晶界模型通过不可逆的线性内聚定律考虑了损伤的发生和发展，该定律能够解决混合模式失效条件。在界面出现故障时，将引入非线性派生接触分析来解决微裂纹表面之间的接触问题。增量迭代算法用于跟踪微降解和裂纹发展。数值测试表明了制剂的能力。

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《International conference on fracture and damage mechanics》|2014年|233-236|共4页
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I. Benedetti; M.H. Aliabadi;
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Polycrystalline materials; Microstructure Modelling; brittle failure; Cohesive laws; Anisotropic Boundary Element Method;

机译：多晶材料;微观结构建模;脆性破坏内聚规律;各向异性边界元法;

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1. A three-dimensional cohesive-frictional grain-boundary micromechanical model for intergranular degradation and failure in polycrystalline materials [J] . I. Benedetti, M.H. Aliabadi Computer Methods in Applied Mechanics and Engineering . 2013,第octa1期

机译：多晶材料中晶间降解和破坏的三维内耗-摩擦摩擦晶界微力学模型
2. A 3D gradient-enhanced micropolar damage-plasticity approach for modeling quasi-brittle failure of cohesive-frictional materials [J] . Neuner M., Gamnitzer P., Hofstetter G. Computers & Structures . 2020,第Octa期

机译：一种梯度增强的微息损伤塑性塑性方法，用于建模粘性摩擦材料的拟脆性失效
3. A boundary cohesive grain element formulation for modelling intergranular microfracture in polycrystalline brittle materials [J] . Sfantos GK, Aliabadi MH International Journal for Numerical Methods in Engineering . 2007,第8期

机译：用于模拟多晶脆性材料中晶间微裂纹的边界粘结晶粒元素配方
4. Computational modelling of brittle failure in polycrystalline materials using cohesive-frictional grain-boundary elements [C] . I. Benedetti, M.H. Aliabadi International Conference on Fracture and Damage Mechanics . 2014

机译：使用粘性摩擦晶体边界元素的多晶材料脆性破坏的计算模拟
5. Three-dimensional modeling of failure in quasi-brittle materials and structures. [D] . Evangelista Junior, Francisco. 2011

机译：准脆性材料和结构破坏的三维模型。
6. Investigation of the Quasi-Brittle Failure of Alashan Granite Viewed from Laboratory Experiments and Grain-Based Discrete Element Modeling [O] . Jian Zhou, Luqing Zhang, Duoxing Yang, 2017

机译：从实验室实验和基于晶粒的离散元建模研究阿拉山花岗岩的准脆性破坏
7. A three-dimensional cohesive-frictional grain-boundaryudmicromechanical model for intergranular degradation and failureudin polycrystalline materials [O] . Benedetti I, Aliabadi MH 2013

机译：三维凝聚摩擦摩擦边界晶间降解和破坏的微力学模型在多晶材料中

Computational modelling of brittle failure in polycrystalline materials using cohesive-frictional grain-boundary elements

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