Add to ORKGThe mechanism of damage initiation and growth in layered composites subjected to low- velocity impact is simulated using a cohesive-based finite element technique. The numerical technique used comprises cohesive elements sandwiched between the regular finite elements. The basic structure of the formulation is presented, followed by the results of the simulation. The success of this numerical technique is dependent on the cohesive model used. The cohesive model is a thermodynamically-based phenomenological model, describing the damage ahead of a crack tip. Details of the rate-independent cohesive model used in this study are also presented
This paper presents numerical investigation of low-velocity impact (LVI) damage process in a unidire...
The paper investigates the capability of a finite element model based on cohesive interface elements...
This chapter addresses the numerical modelling and simulations of the occurrence and propagation of ...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
Numerical analysis of the low-velocity impact damage of a layered composite beam with a functionally...
This paper presents two modelling strategies for the simulation of low velocity impact induced damag...
This paper presents two modelling strategies for the simulation of low velocity impact induced damag...
Progressive damage models based on continuum damage mechanics were used in combination with cohesive...
Progressive damage models based on continuum damage mechanics were used in combination with cohesive...
The diffusion of composite laminates in aerospace industry has been slowed down by complexity in the...
This paper presents numerical investigation of low-velocity impact (LVI) damage process in a unidire...
The paper investigates the capability of a finite element model based on cohesive interface elements...
This chapter addresses the numerical modelling and simulations of the occurrence and propagation of ...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
The mechanism of damage initiation and growth in layered composites subjected to low- velocity impac...
Numerical analysis of the low-velocity impact damage of a layered composite beam with a functionally...
This paper presents two modelling strategies for the simulation of low velocity impact induced damag...
This paper presents two modelling strategies for the simulation of low velocity impact induced damag...
Progressive damage models based on continuum damage mechanics were used in combination with cohesive...
Progressive damage models based on continuum damage mechanics were used in combination with cohesive...
The diffusion of composite laminates in aerospace industry has been slowed down by complexity in the...
This paper presents numerical investigation of low-velocity impact (LVI) damage process in a unidire...
The paper investigates the capability of a finite element model based on cohesive interface elements...
This chapter addresses the numerical modelling and simulations of the occurrence and propagation of ...