Computational homogenization of discrete fracture in fibre-epoxy systems

Fracture toughness of the fibre–matrix interface in glass–epoxy composites

A. Pegoretti
M. L. Accorsi
A. T. Dibenedetto

January 1996

The failure process arising at a broken fibre end in polymer matrix composite materials has been stu...

Per-phase spatial correlated damage models of UD fibre reinforced composites using mean-field homogenisation; applications to notched laminate failure and yarn failure

Wu, Ling
Zhang, Tianyu
Maillard, Etienne
Adam, Laurent
Martiny, Philippe
Noels, Ludovic

December 2021

peer reviewedmicro-mechanical model for fibre bundle failure is formulated following a phase-field a...

Computational homogenization for adhesive and cohesive failure in quasi-brittle solids

Verhoosel, C.V.
Remmers, J.J.C.
Gutiérrez, M.A.
De Borst, R.

January 2010

A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...

Computational homogenization of discrete fracture in fibre-epoxy systems

Cid Alfaro, M.V.
Suiker, A.S.J.
Verhoosel, C.V.
Borst, de, R.

January 2009

In the present paper the effective mesoscale failure response of a fibre-epoxy sample is computed fr...

Numerical homogenization of cracking processes in thin fibre-epoxy layers

Cid Alfaro, MV
Suiker, ASJ Akke
Verhoosel, CV Clemens
Borst, R René de

January 2010

Discrete microscale fracture processes in thin fibre-epoxy layers are connected to a mesoscale tract...

Multiscale modelling of the failure behaviour of fibre-reinforced laminates

Cid Alfaro, MV
Suiker, ASJ Akke
Borst, R René de

January 2011

The static failure behaviour of fibre-reinforced laminates is examined at the mesoscale and microsca...

Transverse failure behavior of fiber-epoxy systems

Cid Alfaro, M.V.
Suiker, A.S.J.
Borst, de, R.

January 2010

The transverse failure response of unidirectional fiber-epoxy systems is studied by means of finite ...

SENSITIVITY OF MATRIX-DOMINATED FAILURE MODES TO CARBON/EPOXY CONSTITUENT PROPERTIES VIA COMPUTATIONAL MICROMECHANICS

Danzi, F.
Fanteria, D
Panettieri, E.

January 2015

A micromechanical approach can promote understanding of composite material failure mechanisms and in...

Multiscale analyses of fibre metal laminates

Cid Alfaro, M.V. (author)

November 2008

The advance of composites used in aerospace, civil and biomechanical engineering and other technolog...

Framework for Predicting Failure in Polymeric Unidirectional Composites through Combined Experimental and Computational Mesoscale Modeling Techniques

Bilal Khaled
Loukham Shyamsunder
Josh Robbins
Yatin Parakhiya
Subramaniam D. Rajan

August 2021

As composites continue to be increasingly used, finite element material models that homogenize the c...

Tensile failure model of carbon fibre in unidirectionally reinforced epoxy composites with mean-field homogenisation

Wu, Ling
Maillard, Etienne
Noels, Ludovic

October 2021

peer reviewedThis paper presents an extension of the so-called incremental-secant mean-field homogen...

Exploring the link between microstructure statistics and transverse ply fracture in carbon/epoxy composites

Zacek, Scott Antonio

May 2017

Damage evolution within polymer matrix composites (PMCs) is difficult to characterize, as variabilit...

Micromechanical modelling of damage and failure in fibre reinforced composites under loading in the transverse plane

Ted Joseph Vaughan (12579361)

January 2011

Fibre reinforced composites exhibit a gradual damage accumulation to failure, with a multitude of hi...

A study of composite laminates failure using an anisotropic gradient-enhanced damage mean-field homogenization model

Wu, Ling
Sket, Federico
Molina-Aldareguia, Jon M
Makradi, Ahmed
Adam, Laurent
Doghri, Issam
Noels, Ludovic

August 2015

The failure of carbon fiber reinforced epoxy laminates is studied using an anisotropic gradient-enha...

Characterization of mode-II delamination fracture energy via computational homogenization

Ke, L.
van der Meer, F.P.
Vassilopoulos, Anastasios P.
Michaud, Véronique

January 2022

Due to the complex underlying microscopic damage processes, the failure behavior of composite materi...

Fracture toughness of the fibre–matrix interface in glass–epoxy composites

A. Pegoretti
M. L. Accorsi
A. T. Dibenedetto

January 1996

The failure process arising at a broken fibre end in polymer matrix composite materials has been stu...

Per-phase spatial correlated damage models of UD fibre reinforced composites using mean-field homogenisation; applications to notched laminate failure and yarn failure

Wu, Ling
Zhang, Tianyu
Maillard, Etienne
Adam, Laurent
Martiny, Philippe
Noels, Ludovic

December 2021

peer reviewedmicro-mechanical model for fibre bundle failure is formulated following a phase-field a...

Computational homogenization for adhesive and cohesive failure in quasi-brittle solids

Verhoosel, C.V.
Remmers, J.J.C.
Gutiérrez, M.A.
De Borst, R.

January 2010

A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...

Computational homogenization of discrete fracture in fibre-epoxy systems

Cid Alfaro, M.V.
Suiker, A.S.J.
Verhoosel, C.V.
Borst, de, R.

January 2009

In the present paper the effective mesoscale failure response of a fibre-epoxy sample is computed fr...

Numerical homogenization of cracking processes in thin fibre-epoxy layers

Cid Alfaro, MV
Suiker, ASJ Akke
Verhoosel, CV Clemens
Borst, R René de

January 2010

Discrete microscale fracture processes in thin fibre-epoxy layers are connected to a mesoscale tract...

Multiscale modelling of the failure behaviour of fibre-reinforced laminates

Cid Alfaro, MV
Suiker, ASJ Akke
Borst, R René de

January 2011

The static failure behaviour of fibre-reinforced laminates is examined at the mesoscale and microsca...

Transverse failure behavior of fiber-epoxy systems

Cid Alfaro, M.V.
Suiker, A.S.J.
Borst, de, R.

January 2010

The transverse failure response of unidirectional fiber-epoxy systems is studied by means of finite ...

SENSITIVITY OF MATRIX-DOMINATED FAILURE MODES TO CARBON/EPOXY CONSTITUENT PROPERTIES VIA COMPUTATIONAL MICROMECHANICS

Danzi, F.
Fanteria, D
Panettieri, E.

January 2015

A micromechanical approach can promote understanding of composite material failure mechanisms and in...

Multiscale analyses of fibre metal laminates

Cid Alfaro, M.V. (author)

November 2008

The advance of composites used in aerospace, civil and biomechanical engineering and other technolog...

Framework for Predicting Failure in Polymeric Unidirectional Composites through Combined Experimental and Computational Mesoscale Modeling Techniques

Bilal Khaled
Loukham Shyamsunder
Josh Robbins
Yatin Parakhiya
Subramaniam D. Rajan

August 2021

As composites continue to be increasingly used, finite element material models that homogenize the c...

Tensile failure model of carbon fibre in unidirectionally reinforced epoxy composites with mean-field homogenisation

Wu, Ling
Maillard, Etienne
Noels, Ludovic

October 2021

peer reviewedThis paper presents an extension of the so-called incremental-secant mean-field homogen...

Exploring the link between microstructure statistics and transverse ply fracture in carbon/epoxy composites

Zacek, Scott Antonio

May 2017

Damage evolution within polymer matrix composites (PMCs) is difficult to characterize, as variabilit...

Micromechanical modelling of damage and failure in fibre reinforced composites under loading in the transverse plane

Ted Joseph Vaughan (12579361)

January 2011

Fibre reinforced composites exhibit a gradual damage accumulation to failure, with a multitude of hi...

A study of composite laminates failure using an anisotropic gradient-enhanced damage mean-field homogenization model

Wu, Ling
Sket, Federico
Molina-Aldareguia, Jon M
Makradi, Ahmed
Adam, Laurent
Doghri, Issam
Noels, Ludovic

August 2015

The failure of carbon fiber reinforced epoxy laminates is studied using an anisotropic gradient-enha...

Characterization of mode-II delamination fracture energy via computational homogenization

Ke, L.
van der Meer, F.P.
Vassilopoulos, Anastasios P.
Michaud, Véronique

January 2022

Due to the complex underlying microscopic damage processes, the failure behavior of composite materi...

Fracture toughness of the fibre–matrix interface in glass–epoxy composites

A. Pegoretti
M. L. Accorsi
A. T. Dibenedetto

January 1996

The failure process arising at a broken fibre end in polymer matrix composite materials has been stu...

Per-phase spatial correlated damage models of UD fibre reinforced composites using mean-field homogenisation; applications to notched laminate failure and yarn failure

Wu, Ling
Zhang, Tianyu
Maillard, Etienne
Adam, Laurent
Martiny, Philippe
Noels, Ludovic

December 2021

peer reviewedmicro-mechanical model for fibre bundle failure is formulated following a phase-field a...

Computational homogenization for adhesive and cohesive failure in quasi-brittle solids

Verhoosel, C.V.
Remmers, J.J.C.
Gutiérrez, M.A.
De Borst, R.

January 2010

A computational multiscale framework is proposed that incorporates microstructural behaviour in a ma...

Computational homogenization of discrete fracture in fibre-epoxy systems

Abstract

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Computational homogenization of discrete fracture in fibre-epoxy systems

Abstract

Extracted data

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