A three-dimensional unit cell has been developed and modelled using the finite element method to investigate the interface failure behaviour of SiCf/Si3N4 composites under tensile loading at room and elevated temperatures. The model idealizes the composite as a regular rectangular array of fibres in 0° and 90° orientations embedded in the matrix. It introduces three-dimensional contact elements between the fibre and the matrix to simulate the interface conditions between the two phases. Slippage between 0° and 90° layers is also considered by introducing another set of contact elements at the layer separation planes. Two interface conditions, namely, infinitely strong and weakly bonded, are considered to establish the correlation with the e...
Finite element models for the debonding of a silicon carbide fiber (SiCf) embedded in silicon carbid...
The influence of the loading path on the failure locus of a composite lamina subjected to transverse...
In this study the stress field around a single fiber in a fibrous composite is investigated as the f...
A three-dimensional unit cell has been developed and modelled using the finite element method to inv...
ABSTRACT: Finite element models are used to analyze a quarter of unit cell for a unidirectional lami...
AbstractA three-dimensional multi-fibre multi-layer micromechanical finite element model was develop...
Interface failure has been studied in depth for more than the past twenty years due to its significa...
A three-dimensional (3D) finite element (FE) analysis of the stress concentration factor (SCF) aroun...
The property of continuous SiC fiber reinforced titanium matrix composites is strongly affected by t...
The failure process arising at a broken fibre end in polymer matrix composite materials has been stu...
Composite laminates can exhibit the nonlinear properties due to the fiber/matrix interface debonding...
A three-dimensional (3-D) finite element (FE) analysis of the stress situation around a fibre break ...
A finite element model for investigating damage evolution in brittle matrix composites was developed...
This paper presents a model to predict the stress distribution along a broken fibre of a unidirectio...
The single-layer and multi-layer finite element models are developed and examined for adequacy in pr...
Finite element models for the debonding of a silicon carbide fiber (SiCf) embedded in silicon carbid...
The influence of the loading path on the failure locus of a composite lamina subjected to transverse...
In this study the stress field around a single fiber in a fibrous composite is investigated as the f...
A three-dimensional unit cell has been developed and modelled using the finite element method to inv...
ABSTRACT: Finite element models are used to analyze a quarter of unit cell for a unidirectional lami...
AbstractA three-dimensional multi-fibre multi-layer micromechanical finite element model was develop...
Interface failure has been studied in depth for more than the past twenty years due to its significa...
A three-dimensional (3D) finite element (FE) analysis of the stress concentration factor (SCF) aroun...
The property of continuous SiC fiber reinforced titanium matrix composites is strongly affected by t...
The failure process arising at a broken fibre end in polymer matrix composite materials has been stu...
Composite laminates can exhibit the nonlinear properties due to the fiber/matrix interface debonding...
A three-dimensional (3-D) finite element (FE) analysis of the stress situation around a fibre break ...
A finite element model for investigating damage evolution in brittle matrix composites was developed...
This paper presents a model to predict the stress distribution along a broken fibre of a unidirectio...
The single-layer and multi-layer finite element models are developed and examined for adequacy in pr...
Finite element models for the debonding of a silicon carbide fiber (SiCf) embedded in silicon carbid...
The influence of the loading path on the failure locus of a composite lamina subjected to transverse...
In this study the stress field around a single fiber in a fibrous composite is investigated as the f...
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