A computational multi-scale model for the stiffness degradation of short-fiber reinforced plastics subjected to fatigue loading

Multi-scale Damage Model for Mechanical High Cycle Fatigue (HCF) of Short Glass Fibre Reinforced Thermoplastics (SGFRTP)

Krairi, Anouar
Doghri, Issam

December 2013

AbstractLight-weight structures with controlled cost is a major issue in all industries especially t...

Micromechanical modeling of the progressive failure in short glass–fiber reinforced thermoplastics – First Pseudo-Grain Damage model

Kammoun, Slim
Doghri, Issam
Brassart, Laurence
Delannay, Laurent

January 2015

This paper presents a new micromechanical damage model, called ‘‘First Pseudo-Grain Damage’’ (FPGD) ...

A physically based micromechanical approach to model damage initiation and evolution of fiber reinforced polymers under fatigue loading conditions

Krause, Daniel

February 2016

The hypothesis of this work is that the fatigue behavior of a composite material is governed by its ...

A computational multi-scale model for the stiffness degradation of short-fiber reinforced plastics subjected to fatigue loading

Köbler, Jonathan
Magino, Nicola
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

January 2021

In this work, we investigate a model for the anisotropic and loading-direction dependent stiffness d...

A multiscale high-cycle fatigue-damage model for the stiffness degradation of fiber-reinforced materials based on a mixed variational framework

Magino, Nicola
Köbler, Jonathan
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

January 2022

Under fatigue-loading, short-fiber reinforced thermoplastic materials typically show a progressive d...

A space-time upscaling technique for modeling high-cycle fatigue-damage of short-fiber reinforced composites

Magino, Nicola
Köbler, Jonathan
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

May 2022

Characterizing short-fiber reinforced polymers under high-cycle fatigue loading is a tedious experim...

Multiscale high cycle fatigue models for neat and short fiber reinforced thermoplastic polymers

Krairi, A.
Doghri, Issam
Robert, G.

January 2016

Two multiscale modeling approaches are proposed to predict the high cycle fatigue (HCF) failure of n...

Multiscale modeling of the damage and failure of homogeneous and short-fiber reinforced thermoplastics under monotonic and fatigue loadings

Krairi, Anouar

January 2015

Reinforced and unreinforced thermoplastic polymers (TPs) are widely used in a range of industrial se...

Fatigue life prediction of short fiber-reinforced thermoplastics

Pietrogrande, Riccardo
Carraro, PAOLO ANDREA
Quaresimin, Marino
Matthias De Monte,

January 2018

In order to predict the fatigue behavior of Short Fiber-Reinforced Thermoplastic (SFRT) parts, a lar...

Multiscale modeling of short fiber-reinforced thermoplastics under fatigue loading

Pietrogrande, Riccardo

November 2018

The present work falls within a wider framework concerning the prediction of the mechanical response...

Microstructure-dependent fatigue damage process in short fiber reinforced plastics

Nishikawa, M.
Okabe, T.

February 2010

AbstractThis paper proposes a numerical model of the fatigue damage process in short fiber-reinforce...

Factors influencing the dynamic stiffness in short‐fiber reinforced polymers

Magino, Nicola
Köbler, Jonathan
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

January 2023

In short‐fiber reinforced polymers, fatigue damage is typically characterized by measuring the dynam...

A model to describe the cyclic anisotropic mechanical behavior of short fiber-reinforced thermoplastics

Navrátil, Libor
Leveuf, Louis
Le Saux, V.
Marco, Yann
Olhagaray, Jérôme
Leclercq, Sylvain
Moyne, Sylvain
Le Saux, Matthieu

January 2020

International audienceDue to the injection molding process, short fiber-reinforced thermoplastic com...

Micromechanical model for preferentially oriented short fibre-reinforced materials under cyclic loading

BRIGHENTI, Roberto
CARPINTERI, Andrea
SCORZA, Daniela

January 2016

The safety assessment of short-fibre-reinforced (SFR) composites, commonly used in structural appli...

Accounting for viscoelastic effects in a multiscale fatigue model for the degradation of the dynamic stiffness of short-fiber reinforced thermoplastics

Magino, Nicola
Köbler, Jonathan
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

December 2022

Under fatigue loading, the stiffness decrease in short-fiber reinforced polymers reflects the gradua...

Multi-scale Damage Model for Mechanical High Cycle Fatigue (HCF) of Short Glass Fibre Reinforced Thermoplastics (SGFRTP)

Krairi, Anouar
Doghri, Issam

December 2013

AbstractLight-weight structures with controlled cost is a major issue in all industries especially t...

Micromechanical modeling of the progressive failure in short glass–fiber reinforced thermoplastics – First Pseudo-Grain Damage model

Kammoun, Slim
Doghri, Issam
Brassart, Laurence
Delannay, Laurent

January 2015

This paper presents a new micromechanical damage model, called ‘‘First Pseudo-Grain Damage’’ (FPGD) ...

A physically based micromechanical approach to model damage initiation and evolution of fiber reinforced polymers under fatigue loading conditions

Krause, Daniel

February 2016

The hypothesis of this work is that the fatigue behavior of a composite material is governed by its ...

A computational multi-scale model for the stiffness degradation of short-fiber reinforced plastics subjected to fatigue loading

Köbler, Jonathan
Magino, Nicola
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

January 2021

In this work, we investigate a model for the anisotropic and loading-direction dependent stiffness d...

A multiscale high-cycle fatigue-damage model for the stiffness degradation of fiber-reinforced materials based on a mixed variational framework

Magino, Nicola
Köbler, Jonathan
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

January 2022

Under fatigue-loading, short-fiber reinforced thermoplastic materials typically show a progressive d...

A space-time upscaling technique for modeling high-cycle fatigue-damage of short-fiber reinforced composites

Magino, Nicola
Köbler, Jonathan
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

May 2022

Characterizing short-fiber reinforced polymers under high-cycle fatigue loading is a tedious experim...

Multiscale high cycle fatigue models for neat and short fiber reinforced thermoplastic polymers

Krairi, A.
Doghri, Issam
Robert, G.

January 2016

Two multiscale modeling approaches are proposed to predict the high cycle fatigue (HCF) failure of n...

Multiscale modeling of the damage and failure of homogeneous and short-fiber reinforced thermoplastics under monotonic and fatigue loadings

Krairi, Anouar

January 2015

Reinforced and unreinforced thermoplastic polymers (TPs) are widely used in a range of industrial se...

Fatigue life prediction of short fiber-reinforced thermoplastics

Pietrogrande, Riccardo
Carraro, PAOLO ANDREA
Quaresimin, Marino
Matthias De Monte,

January 2018

In order to predict the fatigue behavior of Short Fiber-Reinforced Thermoplastic (SFRT) parts, a lar...

Multiscale modeling of short fiber-reinforced thermoplastics under fatigue loading

Pietrogrande, Riccardo

November 2018

The present work falls within a wider framework concerning the prediction of the mechanical response...

Microstructure-dependent fatigue damage process in short fiber reinforced plastics

Nishikawa, M.
Okabe, T.

February 2010

AbstractThis paper proposes a numerical model of the fatigue damage process in short fiber-reinforce...

Factors influencing the dynamic stiffness in short‐fiber reinforced polymers

Magino, Nicola
Köbler, Jonathan
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

January 2023

In short‐fiber reinforced polymers, fatigue damage is typically characterized by measuring the dynam...

A model to describe the cyclic anisotropic mechanical behavior of short fiber-reinforced thermoplastics

Navrátil, Libor
Leveuf, Louis
Le Saux, V.
Marco, Yann
Olhagaray, Jérôme
Leclercq, Sylvain
Moyne, Sylvain
Le Saux, Matthieu

January 2020

International audienceDue to the injection molding process, short fiber-reinforced thermoplastic com...

Micromechanical model for preferentially oriented short fibre-reinforced materials under cyclic loading

BRIGHENTI, Roberto
CARPINTERI, Andrea
SCORZA, Daniela

January 2016

The safety assessment of short-fibre-reinforced (SFR) composites, commonly used in structural appli...

Accounting for viscoelastic effects in a multiscale fatigue model for the degradation of the dynamic stiffness of short-fiber reinforced thermoplastics

Magino, Nicola
Köbler, Jonathan
Andrä, Heiko
Welschinger, Fabian
Müller, Ralf
Schneider, Matti

December 2022

Under fatigue loading, the stiffness decrease in short-fiber reinforced polymers reflects the gradua...

Multi-scale Damage Model for Mechanical High Cycle Fatigue (HCF) of Short Glass Fibre Reinforced Thermoplastics (SGFRTP)

Krairi, Anouar
Doghri, Issam

December 2013

AbstractLight-weight structures with controlled cost is a major issue in all industries especially t...

Micromechanical modeling of the progressive failure in short glass–fiber reinforced thermoplastics – First Pseudo-Grain Damage model

Kammoun, Slim
Doghri, Issam
Brassart, Laurence
Delannay, Laurent

January 2015

This paper presents a new micromechanical damage model, called ‘‘First Pseudo-Grain Damage’’ (FPGD) ...

A physically based micromechanical approach to model damage initiation and evolution of fiber reinforced polymers under fatigue loading conditions

Krause, Daniel

February 2016

The hypothesis of this work is that the fatigue behavior of a composite material is governed by its ...

A computational multi-scale model for the stiffness degradation of short-fiber reinforced plastics subjected to fatigue loading

Abstract

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A computational multi-scale model for the stiffness degradation of short-fiber reinforced plastics subjected to fatigue loading

Abstract

Extracted data

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