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Investigating Some Technical Issues on Cohesive Zone Modeling of Fracture

机译：关于裂缝粘聚区建模的若干技术问题研究

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This study investigates some technical issues related to the use of cohesive zone models (CZMs) in modeling fracture processes. These issues include: why cohesive laws of different shapes can produce similar fracture predictions; under what conditions CZM predictions have a high degree of agreement with linear elastic fracture mechanics (LEFM) analysis results; when the shape of cohesive laws becomes important in the fracture predictions; and why the opening profile along the cohesive zone length needs to be accurately predicted. Two cohesive models were used in this study to address these technical issues. They are the linear softening cohesive model and the Dugdale perfectly plastic cohesive model. Each cohesive model constitutes five cohesive laws of different maximum tractions. All cohesive laws have the same cohesive work rate (CWR) which is defined by the area under the traction-separation curve. The effects of the maximum traction on the cohesive zone length and the critical remote applied stress are investigated for both models. For a CZM to predict a fracture load similar to that obtained by an LEFM analysis, the cohesive zone length needs to be much smaller than the crack length, which reflects the small scale yielding condition requirement for LEFM analysis to be valid. For large-scale cohesive zone cases, the predicted critical remote applied stresses depend on the shape of cohesive models used and can significantly deviate from LEFM results. Furthermore, this study also reveals the importance of accurately predicting the cohesive zone profile in determining the critical remote applied load.

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作者
Wang, J. T.;
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年度 2011
页码 1-17
总页数 17
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Fracture mechanics ; Loads(Forces) ; Cohesion ; Fracturing ; Shapes ; Predictions;

机译：断裂力学;载荷（力）;内聚力;压裂;形状;预测;

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2. Investigating Some Technical Issues on Cohesive Zone Modeling of Fracture [J] . John T. Wang Journal of engineering materials and technology . 2013,第1期

机译：研究裂缝内聚区建模的一些技术问题
3. Numerical Investigation of Hydraulic Fracture Propagation Based on Cohesive Zone Model in Naturally Fractured Formations [J] . Jianxiong Li, Shiming Dong, Wen Hua, Processes . 2019,第1期

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4. Fracture mechanical investigations and cohesive zone failure modelling on automotive composites [J] . Stephan Marzi, Andrea Rauh, Roland M. Hinterhoelzl Composite Structures . 2014,第may期

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5. Investigating Some Technical Issues on Cohesive Zone Modeling of Fracture [C] . John T. Wang AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference . 2011

机译：研究裂缝内聚区建模的一些技术问题
6. Investigation of translaminar fracture in fibrereinforced composite laminates---applicability of linear elastic fracture mechanics and cohesive-zone model. [D] . Hou, Fang. 2014

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7. Rate-Dependent Cohesive Zone Model for Fracture Simulation of Soda-Lime Glass Plate [O] . Dong Li, Demin Wei 2020

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8. Investigating Some Technical Issues on Cohesive Zone Modeling of Fracture [O] . Wang John T. 2011

机译：研究裂缝内聚区建模的一些技术问题

Investigating Some Technical Issues on Cohesive Zone Modeling of Fracture

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