The numerical analysis of dynamically loaded ceramic: a crack softening approach

Paul J. Hazell; Michael J. Iremonger

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The numerical analysis of dynamically loaded ceramic: a crack softening approach

机译：动态加载陶瓷的数值分析：裂纹软化方法

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A physically based crack softening approach to modelling the failure of brittle materials that have been subjected to dynamic loading is presented and applied to a two-dimensional non-linear transient dynamic hydrocode. It is assumed that there are a number of evenly distributed and orientated microflaws within the brittle material that are activated by a dynamically applied stress. Modes I and II stress intensity factors are calculated and compared to critical values, at which point the cracks grow at a velocity dependent on mode I stress intensity factor. The strength of the ceramic is degraded according to the length of the cracks. A simulation of a steel sphere impacting and penetrating a ceramic target at 1500 m/s is presented. Comparisons are drawn from experimental data.

机译：提出了一种基于物理的裂纹软化方法，该方法可以对已承受动态载荷的脆性材料的破坏进行建模，并将其应用于二维非线性瞬态动态水力代码。假定在脆性材料中存在许多均匀分布和定向的微缺陷，这些缺陷由动态施加的应力激活。计算模式I和II的应力强度因子，并将其与临界值进行比较，此时，裂纹以取决于模式I应力强度因子的速度增长。陶瓷的强度根据裂纹的长度而降低。提出了一个钢球以1500 m / s冲击并穿透陶瓷靶的模拟。比较是根据实验数据得出的。

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《International Journal for Numerical Methods in Engineering》 |2000年第7期|共17页
作者
Paul J. Hazell; Michael J. Iremonger;
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正文语种 eng
中图分类工程基础科学;
关键词
crack-softening; hydrocode; dynamic; failure; ceramic; strength loss;

机译：裂纹软化;水压;动态;破坏;陶瓷;强度损失;

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1. The numerical analysis of dynamically loaded ceramic: a crack softening approach [J] . Paul J. Hazell, Michael J. Iremonger International Journal for Numerical Methods in Engineering . 2000,第7期

机译：动态加载陶瓷的数值分析：裂纹软化方法
2. Experimental and numerical study of the interaction between dynamically loaded cracks and pre-existing flaws in edge impacted PMMA specimens [J] . Habeeb Chuzhali Nilath Irfan, Osovski Shmulik International journal of impact engineering . 2021,第Nova期

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3. A numerical investigation of loss of crack tip constraint in a dynamically loaded ductile specimen [J] . Sumit Basu, R. Narasimhan Journal of the Mechanics and Physics of Solids . 2000,第9期

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4. Numerical analysis of a testing technique to investigate the dynamic crack propagation in armour ceramic [C] . Yannick Duplan, Pascal Forquin, Bratislav Lukic, International Conference on the Mechanical and Physical Behaviour of Materials under Dynamic Loading . 2018

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5. A NUMERICAL AND AN ANALYTICAL APPROACH TO APPROXIMATE DYNAMIC MODELING OF DISTILLATION TOWERS (RECYCLE, TIME-CONSTANTS, SHORT-CUT, LINEAR-ANALYSIS). [D] . KAPOOR, NAVEEN. 1986

机译：精馏塔动态模型（再循环，时间常数，短切，线性分析）的数值和解析方法。
6. A Novel Design Approach for Self-Crack-Healing Structural Ceramics with 3D Networks of Healing Activator [O] . Toshio Osada, Kiichi Kamoda, Masanori Mitome, -1

机译：具有修复活化剂3D网络的自裂纹修复结构陶瓷的新设计方法
7. The numerical analysis of dynamically loaded ceramic: A crack softening approach [O] . Hazell P. J., Iremonger M. J. 2000

机译：动态加载陶瓷的数值分析：裂纹软化方法
8. Numerical analysis of crack growth in microcracking ceramic and ceramic composites [R] . Biner, S. B. 1994

机译：微裂陶瓷和陶瓷复合材料裂纹扩展的数值分析

The numerical analysis of dynamically loaded ceramic: a crack softening approach

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