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Numerical Simulation of Microcrack-Induced Delamination in Cross-Ply-Laminates under Static Loading using Cohesive Zone Models

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

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  • Technische Universität Dresden

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Titel in ÜbersetzungNumerische Simulation mikrorissinduzierter Delamination in Kreuzlaminaten bei statischer Belastung unter Verwendung von Kohäsivzonenmodellen
OriginalspracheEnglisch
Titel des SammelwerksProceedings of the 20th European Conference on Composite Materials
UntertitelComposites Meets Sustainability
Herausgeber/-innenAnastasios P. Vassilopoulos, Veronique Michaud
ErscheinungsortLausanne
Seiten334-341
Seitenumfang8
BandVol 4 - Modeling and Prediction
ISBN (elektronisch)9782970161400
PublikationsstatusVeröffentlicht - 12 Dez. 2022

Abstract

In this contribution, the delamination behaviour in cross-ply glass fiber reinforced
composites under static tensile loading is investigated numerically using both cohesive elements and contact cohesive surfaces in the commercial finite element software ABAQUS. The laminates studied contain predefined microcracks in the embedded 90° ply, which serve as the source of delamination. Particular attention is paid to the connection of the pre-existing matrix crack tips to the cohesive zone in the [0/90] interfaces, which have a strong influence on delamination
initiation and growth. The presented analysis includes different modelling approaches of microcrack-induced delamination (MCID), which are compared and critically discussed. In this relation, the different modelling approaches partly show a strong influence on the simulation results. The static MCID model can be converted to a fatigue MCID model by using a cyclic cohesive zone model.

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Numerical Simulation of Microcrack-Induced Delamination in Cross-Ply-Laminates under Static Loading using Cohesive Zone Models. / Hacker, Gereon; Brod, Martin; Just, Gordon et al.
Proceedings of the 20th European Conference on Composite Materials: Composites Meets Sustainability. Hrsg. / Anastasios P. Vassilopoulos; Veronique Michaud. Band Vol 4 - Modeling and Prediction Lausanne, 2022. S. 334-341.

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Hacker, G, Brod, M, Just, G, Scheffler, SS, Koch, I, Rolfes, R & Gude, M 2022, Numerical Simulation of Microcrack-Induced Delamination in Cross-Ply-Laminates under Static Loading using Cohesive Zone Models. in AP Vassilopoulos & V Michaud (Hrsg.), Proceedings of the 20th European Conference on Composite Materials: Composites Meets Sustainability. Bd. Vol 4 - Modeling and Prediction, Lausanne, S. 334-341.
Hacker, G., Brod, M., Just, G., Scheffler, S. S., Koch, I., Rolfes, R., & Gude, M. (2022). Numerical Simulation of Microcrack-Induced Delamination in Cross-Ply-Laminates under Static Loading using Cohesive Zone Models. In A. P. Vassilopoulos, & V. Michaud (Hrsg.), Proceedings of the 20th European Conference on Composite Materials: Composites Meets Sustainability (Band Vol 4 - Modeling and Prediction, S. 334-341).
Hacker G, Brod M, Just G, Scheffler SS, Koch I, Rolfes R et al. Numerical Simulation of Microcrack-Induced Delamination in Cross-Ply-Laminates under Static Loading using Cohesive Zone Models. in Vassilopoulos AP, Michaud V, Hrsg., Proceedings of the 20th European Conference on Composite Materials: Composites Meets Sustainability. Band Vol 4 - Modeling and Prediction. Lausanne. 2022. S. 334-341
Hacker, Gereon ; Brod, Martin ; Just, Gordon et al. / Numerical Simulation of Microcrack-Induced Delamination in Cross-Ply-Laminates under Static Loading using Cohesive Zone Models. Proceedings of the 20th European Conference on Composite Materials: Composites Meets Sustainability. Hrsg. / Anastasios P. Vassilopoulos ; Veronique Michaud. Band Vol 4 - Modeling and Prediction Lausanne, 2022. S. 334-341
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title = "Numerical Simulation of Microcrack-Induced Delamination in Cross-Ply-Laminates under Static Loading using Cohesive Zone Models",
abstract = "In this contribution, the delamination behaviour in cross-ply glass fiber reinforcedcomposites under static tensile loading is investigated numerically using both cohesive elements and contact cohesive surfaces in the commercial finite element software ABAQUS. The laminates studied contain predefined microcracks in the embedded 90° ply, which serve as the source of delamination. Particular attention is paid to the connection of the pre-existing matrix crack tips to the cohesive zone in the [0/90] interfaces, which have a strong influence on delaminationinitiation and growth. The presented analysis includes different modelling approaches of microcrack-induced delamination (MCID), which are compared and critically discussed. In this relation, the different modelling approaches partly show a strong influence on the simulation results. The static MCID model can be converted to a fatigue MCID model by using a cyclic cohesive zone model.",
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author = "Gereon Hacker and Martin Brod and Gordon Just and Scheffler, {Sven Sigo} and Ilja Koch and Raimund Rolfes and Maik Gude",
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T1 - Numerical Simulation of Microcrack-Induced Delamination in Cross-Ply-Laminates under Static Loading using Cohesive Zone Models

AU - Hacker, Gereon

AU - Brod, Martin

AU - Just, Gordon

AU - Scheffler, Sven Sigo

AU - Koch, Ilja

AU - Rolfes, Raimund

AU - Gude, Maik

N1 - Funding Information: The authors gratefully acknowledge the financial support of the German Research Foundation (DFG) within the Research Grant 457043708.

PY - 2022/12/12

Y1 - 2022/12/12

N2 - In this contribution, the delamination behaviour in cross-ply glass fiber reinforcedcomposites under static tensile loading is investigated numerically using both cohesive elements and contact cohesive surfaces in the commercial finite element software ABAQUS. The laminates studied contain predefined microcracks in the embedded 90° ply, which serve as the source of delamination. Particular attention is paid to the connection of the pre-existing matrix crack tips to the cohesive zone in the [0/90] interfaces, which have a strong influence on delaminationinitiation and growth. The presented analysis includes different modelling approaches of microcrack-induced delamination (MCID), which are compared and critically discussed. In this relation, the different modelling approaches partly show a strong influence on the simulation results. The static MCID model can be converted to a fatigue MCID model by using a cyclic cohesive zone model.

AB - In this contribution, the delamination behaviour in cross-ply glass fiber reinforcedcomposites under static tensile loading is investigated numerically using both cohesive elements and contact cohesive surfaces in the commercial finite element software ABAQUS. The laminates studied contain predefined microcracks in the embedded 90° ply, which serve as the source of delamination. Particular attention is paid to the connection of the pre-existing matrix crack tips to the cohesive zone in the [0/90] interfaces, which have a strong influence on delaminationinitiation and growth. The presented analysis includes different modelling approaches of microcrack-induced delamination (MCID), which are compared and critically discussed. In this relation, the different modelling approaches partly show a strong influence on the simulation results. The static MCID model can be converted to a fatigue MCID model by using a cyclic cohesive zone model.

KW - Cohesive Zone Model

KW - Fiber Reinforced Plastics

KW - Microcrack-induced Delamination

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M3 - Conference contribution

VL - Vol 4 - Modeling and Prediction

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EP - 341

BT - Proceedings of the 20th European Conference on Composite Materials

A2 - Vassilopoulos, Anastasios P.

A2 - Michaud, Veronique

CY - Lausanne

ER -

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