The Cohesive Zone Model for Fatigue Crack Growth

A cohesive crack model coupled with damage for interface fatigue problems

(2012) Baoming Gong et al.   INTERNATIONAL JOURNAL OF FRACTURE

Bilinear approximations to the mode II delamination cohesive law using an inverse method

(2012) N. Dourado et al.   MECHANICS OF MATERIALS

A procedure for the simulation of fatigue crack growth in adhesively bonded joints based on the cohesive zone model and different mixed-mode propagation criteria

(2011) F. Moroni et al.   ENGINEERING FRACTURE MECHANICS

Modeling of the variability of fatigue crack growth using cohesive zone elements

(2011) P. Beaurepaire et al.   ENGINEERING FRACTURE MECHANICS

A cohesive model for fatigue failure in complex stress-states

(2011) Deepak Jha et al.   INTERNATIONAL JOURNAL OF FATIGUE

Simulation of Mixed-Mode I/II Fatigue Crack Propagation in Adhesive Joints with a Modified Cohesive Zone Model

(2011) A. Pirondi et al.   JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY

Modeling end notched flexure tests to establish cohesive element Mode II fracture parameters

(2010) Chien-Chung Chen et al.   ENGINEERING FRACTURE MECHANICS

Determination of cohesive parameters for a mixed-mode cohesive zone model

(2010) Min Jung Lee et al.   INTERNATIONAL JOURNAL OF ADHESION AND ADHESIVES

A fatigue degradation law for cohesive interface elements – Development and application to composite materials

(2010) Paul W. Harper et al.   INTERNATIONAL JOURNAL OF FATIGUE

Prediction of fatigue crack growth and residual stress relaxations in shot-peened material

(2010) Jinxiang Liu et al.   MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING

Fatigue simulation for titanium/CFRP hybrid laminates using cohesive elements

(2009) T. Yamaguchi et al.   COMPOSITES SCIENCE AND TECHNOLOGY

On damage accumulations in the cyclic cohesive zone model for XFEM analysis of mixed-mode fatigue crack growth

(2009) Yangjian Xu et al.   COMPUTATIONAL MATERIALS SCIENCE

Prediction of 3D small fatigue crack propagation in shot-peened specimens

(2009) Jinxiang Liu et al.   COMPUTATIONAL MATERIALS SCIENCE

Constitutive models for cohesive zones in mixed-mode fracture of plain concrete

(2009) Luciani N. Lens et al.   ENGINEERING FRACTURE MECHANICS

Predicting the influence of overload and loading mode on fatigue crack growth: A numerical approach using irreversible cohesive elements

(2009) Haodan Jiang et al.   FINITE ELEMENTS IN ANALYSIS AND DESIGN

Computational modeling of mixed-mode fatigue crack growth using extended finite element methods

(2009) Yangjian Xu et al.   INTERNATIONAL JOURNAL OF FRACTURE

A cohesive zone model for fatigue crack growth allowing for crack retardation

(2009) Ani Ural et al.   INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES

A new cohesive zone model for mixed mode interface fracture in bimaterials

(2008) Yuval Freed et al.   ENGINEERING FRACTURE MECHANICS

Computational analysis of mixed-mode fatigue crack growth in quasi-brittle materials using extended finite element methods

(2008) Yangjian Xu et al.   ENGINEERING FRACTURE MECHANICS

Interfacial Fracture Investigation of Low-k Packaging Using J-Integral Methodology

(2008) Chang-Chun Lee et al.   IEEE TRANSACTIONS ON ADVANCED PACKAGING

A cohesive zone model for fatigue and creep–fatigue crack growth in single crystal superalloys

(2008) J.L. Bouvard et al.   INTERNATIONAL JOURNAL OF FATIGUE

Ductile fracture assessment of Indonesian wearing course mixtures using critical J integral and crack tip opening angle

(2008) I. Haryanto et al.   International Journal of Pavement Engineering

A cohesive zone model based on the micromechanics of dislocations

(2008) Steffen Brinckmann et al.   MODELLING AND SIMULATION IN MATERIALS SCIENCE AND ENGINEERING

Computations of fatigue crack growth with strain gradient plasticity and an irreversible cohesive zone model

(2007) Steffen Brinckmann et al.   ENGINEERING FRACTURE MECHANICS