Cinétique de ruptures de fibres dans un matériau composite UD soumis à la traction avec une matrice viscoélastique

Natalia Kotelnikova-Weiler; Jean François Caron; Olivier Baverel

doi:10.3166/RCMA.23.125-138

Cinétique de ruptures de fibres dans un matériau composite UD soumis à la traction avec une matrice viscoélastique

Translated title of the contribution: Kinetic of fibre ruptures in a UD composite material with a viscoelastic matrix subject to traction

Natalia Kotelnikova-Weiler
, Jean François Caron
, Olivier Baverel

Research output: Contribution to journal › Article › peer-review

Abstract

Structural applications of fiber reinforced polymers are strongly dependent on long-term durability studies. Subject to sustained loading, the material undergoes several phenomena reducing its mechanical performances and potentially leading to its failure. To understand the creep rupture mechanisms and identify relevant mechanical parameters that will need to be adjusted during the composition of the material, modeling at the fibers scale seems adequate. In this article a shear-lag model will be presented. This 2D model integrates a viscoelastic behavior of the matrix and a stochastic distribution of fibers strength. Results showing the main phenomena occurring in the stress redistribution in the composite material will also be presented.

Translated title of the contribution	Kinetic of fibre ruptures in a UD composite material with a viscoelastic matrix subject to traction
Original language	French
Pages (from-to)	125-138
Number of pages	14
Journal	Revue des Composites et des Materiaux Avances
Volume	23
Issue number	1
DOIs	https://doi.org/10.3166/RCMA.23.125-138
Publication status	Published - 24 Oct 2013
Externally published	Yes

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title = "Cin{\'e}tique de ruptures de fibres dans un mat{\'e}riau composite UD soumis {\`a} la traction avec une matrice visco{\'e}lastique",

abstract = "Structural applications of fiber reinforced polymers are strongly dependent on long-term durability studies. Subject to sustained loading, the material undergoes several phenomena reducing its mechanical performances and potentially leading to its failure. To understand the creep rupture mechanisms and identify relevant mechanical parameters that will need to be adjusted during the composition of the material, modeling at the fibers scale seems adequate. In this article a shear-lag model will be presented. This 2D model integrates a viscoelastic behavior of the matrix and a stochastic distribution of fibers strength. Results showing the main phenomena occurring in the stress redistribution in the composite material will also be presented.",

keywords = "Creep rupture, Shear-lag model, Stress redistribution, Viscoelastic polymer matrix",

author = "Natalia Kotelnikova-Weiler and Caron, \{Jean Fran{\c c}ois\} and Olivier Baverel",

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doi = "10.3166/RCMA.23.125-138",

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T1 - Cinétique de ruptures de fibres dans un matériau composite UD soumis à la traction avec une matrice viscoélastique

AU - Kotelnikova-Weiler, Natalia

AU - Caron, Jean François

AU - Baverel, Olivier

PY - 2013/10/24

Y1 - 2013/10/24

N2 - Structural applications of fiber reinforced polymers are strongly dependent on long-term durability studies. Subject to sustained loading, the material undergoes several phenomena reducing its mechanical performances and potentially leading to its failure. To understand the creep rupture mechanisms and identify relevant mechanical parameters that will need to be adjusted during the composition of the material, modeling at the fibers scale seems adequate. In this article a shear-lag model will be presented. This 2D model integrates a viscoelastic behavior of the matrix and a stochastic distribution of fibers strength. Results showing the main phenomena occurring in the stress redistribution in the composite material will also be presented.

AB - Structural applications of fiber reinforced polymers are strongly dependent on long-term durability studies. Subject to sustained loading, the material undergoes several phenomena reducing its mechanical performances and potentially leading to its failure. To understand the creep rupture mechanisms and identify relevant mechanical parameters that will need to be adjusted during the composition of the material, modeling at the fibers scale seems adequate. In this article a shear-lag model will be presented. This 2D model integrates a viscoelastic behavior of the matrix and a stochastic distribution of fibers strength. Results showing the main phenomena occurring in the stress redistribution in the composite material will also be presented.

KW - Creep rupture

KW - Shear-lag model

KW - Stress redistribution

KW - Viscoelastic polymer matrix

UR - https://www.scopus.com/pages/publications/84885900555

U2 - 10.3166/RCMA.23.125-138

DO - 10.3166/RCMA.23.125-138

M3 - Article

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SN - 1169-7954

VL - 23

SP - 125

EP - 138

JO - Revue des Composites et des Materiaux Avances

JF - Revue des Composites et des Materiaux Avances

IS - 1

ER -

Cinétique de ruptures de fibres dans un matériau composite UD soumis à la traction avec une matrice viscoélastique

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