Linear analysis of mechanics of single and multiple cracks at fiber/matrix interface using axisymmetric model

► The criterion is useful for the realistic composites with finite fiber volume fractions and finite crack sizes. ► The possibility of utilizing the flaw size of the fiber as a crack extension for both deflected and penetrating cracks. ► Comparison between energy release rate at crack with a single...

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Published inMaterials in engineering Vol. 32; no. 4; pp. 2490 - 2495
Main Authors Bouchikhi, A.S., Megueni, A., Lousdad, A., Reffessi, K.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2011
Subjects
Axisymmetric
Bonding
Cracks
Deflection
Deviation
Energy release rate
Fibers
Fibre
Fibres
Fracture mechanics
Mathematical analysis
Mathematical models
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Abstract ► The criterion is useful for the realistic composites with finite fiber volume fractions and finite crack sizes. ► The possibility of utilizing the flaw size of the fiber as a crack extension for both deflected and penetrating cracks. ► Comparison between energy release rate at crack with a single deviation and double deviation. It is well known that the life of material composite depends on the hardness of the interface between the fiber and the matrix. Herein, the aim of this work is the calculation by finite element method interaction effect between a crack and an interface by energy release rate approach. The first part of this work is devoted to the crack normal to the interface and the second one deals with the crack terminated at the interface. In this study, two cases are considered using a copper matrix with different fibers. An axisymmetric model has been used to evaluate the conditions for the crack deflection/penetration by the interface as well as the effects of the volume percent of fibers and the effects of the distance between the crack tip and the interface were highlighted as well as the effects of the elastic properties of two bonded materials.
AbstractList The life of material composites depends on the hardness of the interface between the fibre and the matrix. The effect of interactions between a crack and an interface and the energy release rate was calculated by finite element analysis. Two cases were considered using a copper matrix with different fibres. An axisymmetric model was used to evaluate the conditions for the crack deflection/penetration by the interface. The effects of the volume percent of fibres and the effects of the distance between the crack tip and the interface were highlighted, as well as the effects of the elastic properties of two bonded materials.
a-[ordm The criterion is useful for the realistic composites with finite fiber volume fractions and finite crack sizes. a-[ordm The possibility of utilizing the flaw size of the fiber as a crack extension for both deflected and penetrating cracks. a-[ordm Comparison between energy release rate at crack with a single deviation and double deviation. It is well known that the life of material composite depends on the hardness of the interface between the fiber and the matrix. Herein, the aim of this work is the calculation by finite element method interaction effect between a crack and an interface by energy release rate approach. The first part of this work is devoted to the crack normal to the interface and the second one deals with the crack terminated at the interface. In this study, two cases are considered using a copper matrix with different fibers. An axisymmetric model has been used to evaluate the conditions for the crack deflection/penetration by the interface as well as the effects of the volume percent of fibers and the effects of the distance between the crack tip and the interface were highlighted as well as the effects of the elastic properties of two bonded materials.
► The criterion is useful for the realistic composites with finite fiber volume fractions and finite crack sizes. ► The possibility of utilizing the flaw size of the fiber as a crack extension for both deflected and penetrating cracks. ► Comparison between energy release rate at crack with a single deviation and double deviation. It is well known that the life of material composite depends on the hardness of the interface between the fiber and the matrix. Herein, the aim of this work is the calculation by finite element method interaction effect between a crack and an interface by energy release rate approach. The first part of this work is devoted to the crack normal to the interface and the second one deals with the crack terminated at the interface. In this study, two cases are considered using a copper matrix with different fibers. An axisymmetric model has been used to evaluate the conditions for the crack deflection/penetration by the interface as well as the effects of the volume percent of fibers and the effects of the distance between the crack tip and the interface were highlighted as well as the effects of the elastic properties of two bonded materials.
Author Lousdad, A.
Reffessi, K.
Bouchikhi, A.S.
Megueni, A.
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Snippet ► The criterion is useful for the realistic composites with finite fiber volume fractions and finite crack sizes. ► The possibility of utilizing the flaw size...
The life of material composites depends on the hardness of the interface between the fibre and the matrix. The effect of interactions between a crack and an...
a-[ordm The criterion is useful for the realistic composites with finite fiber volume fractions and finite crack sizes. a-[ordm The possibility of utilizing...
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SubjectTerms Axisymmetric
Bonding
Cracks
Deflection
Deviation
Energy release rate
Fibers
Fibre
Fibres
Fracture mechanics
Mathematical analysis
Mathematical models
Title Linear analysis of mechanics of single and multiple cracks at fiber/matrix interface using axisymmetric model
URI https://dx.doi.org/10.1016/j.matdes.2010.10.029
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