Add to ORKGThe aim of the present paper is to study and model the fatigue behavior of short glass fibers reinforced polyamide-66. The effect of fiber content on the fatigue and static behavior of this composite is investigated. In such composites fatigue damage growth exhibits three stages. A continuum damage based model is presented to predict damage evolution during these three stages. Experimental results show that increasing the fiber content increases the elastic modulus and the tensile strength of the studied materials under tensile tests. However, the rupture behavior changes from ductile to brittle. Moreover increasing the fiber percentage changes the S-N curves slope and decreases the fatigue life. Analytical results predicted by the proposed...
The work discussed in this thesis is a contribution to the understanding of damage mechanisms and id...
The work discussed in this thesis is a contribution to the understanding of damage mechanisms and id...
Dans l'objectif d'améliorer la compréhension du comportement mécanique des thermoplastiques renforcé...
The aim of the present paper is to study and model the fatigue behavior of short glass fibers reinfo...
In this study, the fatigue behavior of polyamide 66 reinforced with short glass fibers and especiall...
In this study, the fatigue behavior of polyamide 66 reinforced with short glass fibers and especiall...
In this work, the fatigue behavior of short glass fibers reinforced polyamide 66 has been investigat...
In this work, the fatigue behavior of short glass fibers reinforced polyamide 66 has been investigat...
AbstractFatigue life prediction requires thorough understanding of the deformation and damage mechan...
The objective of this work is to identify and to analyze the main micro-mechanisms which govern the ...
The objective of this work is to identify and to analyze the main micro-mechanisms which govern the ...
The growth of composite materials is closely linked to the demands of the transportation industry fo...
The objective of this work is to identify and to analyze the main micro-mechanisms which govern the ...
This paper investigates the influence of the fiber volume fraction on the damage evolution in a shor...
This paper aims at studying fatigue damage behavior of injection molded 30 wt% short glass fiber rei...
The work discussed in this thesis is a contribution to the understanding of damage mechanisms and id...
The work discussed in this thesis is a contribution to the understanding of damage mechanisms and id...
Dans l'objectif d'améliorer la compréhension du comportement mécanique des thermoplastiques renforcé...
The aim of the present paper is to study and model the fatigue behavior of short glass fibers reinfo...
In this study, the fatigue behavior of polyamide 66 reinforced with short glass fibers and especiall...
In this study, the fatigue behavior of polyamide 66 reinforced with short glass fibers and especiall...
In this work, the fatigue behavior of short glass fibers reinforced polyamide 66 has been investigat...
In this work, the fatigue behavior of short glass fibers reinforced polyamide 66 has been investigat...
AbstractFatigue life prediction requires thorough understanding of the deformation and damage mechan...
The objective of this work is to identify and to analyze the main micro-mechanisms which govern the ...
The objective of this work is to identify and to analyze the main micro-mechanisms which govern the ...
The growth of composite materials is closely linked to the demands of the transportation industry fo...
The objective of this work is to identify and to analyze the main micro-mechanisms which govern the ...
This paper investigates the influence of the fiber volume fraction on the damage evolution in a shor...
This paper aims at studying fatigue damage behavior of injection molded 30 wt% short glass fiber rei...
The work discussed in this thesis is a contribution to the understanding of damage mechanisms and id...
The work discussed in this thesis is a contribution to the understanding of damage mechanisms and id...
Dans l'objectif d'améliorer la compréhension du comportement mécanique des thermoplastiques renforcé...