Critical load prediction in notched e/glass–epoxy-laminated composites using the virtual isotropic material concept combined with the average strain energy density criterion

Marcos Sánchez; Sergio Cicero; Ali Reza Torabi; Majid Reza Ayatollahi

doi:10.3390/polym13071057

Critical load prediction in notched e/glass–epoxy-laminated composites using the virtual isotropic material concept combined with the average strain energy density criterion

Marcos Sánchez
, Sergio Cicero^*
, Ali Reza Torabi^*
, Majid Reza Ayatollahi

^*Corresponding author for this work

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

11 Citations (Scopus)

Abstract

This paper attempts to validate the application of the Virtual Isotropic Material Concept (VIMC) in combination with the average strain energy density (ASED) criterion to predict the critical load in notched laminated composites. This methodology was applied to E/glass–epoxy-laminated composites containing U-notches. For this purpose, a series of fracture test data recently published in the literature on specimens with different notch tip radii, lay-up configurations, and a number of plies were employed. It was shown that the VIMC–ASED combined approach provided satisfactory predictions of the last-ply failure (LPF) loads (i.e., critical loads).

Original language	English
Article number	1057
Journal	Polymers
Volume	13
Issue number	7
DOIs	https://doi.org/10.3390/polym13071057
Publication status	Published - 1 Apr 2021
Externally published	Yes

Keywords

Average Strain Energy Density criterion (ASED)
Fracture
Laminated composite
Notch
Virtual Isotropic Material Concept (VIMC)

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10.3390/polym13071057

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title = "Critical load prediction in notched e/glass–epoxy-laminated composites using the virtual isotropic material concept combined with the average strain energy density criterion",

abstract = "This paper attempts to validate the application of the Virtual Isotropic Material Concept (VIMC) in combination with the average strain energy density (ASED) criterion to predict the critical load in notched laminated composites. This methodology was applied to E/glass–epoxy-laminated composites containing U-notches. For this purpose, a series of fracture test data recently published in the literature on specimens with different notch tip radii, lay-up configurations, and a number of plies were employed. It was shown that the VIMC–ASED combined approach provided satisfactory predictions of the last-ply failure (LPF) loads (i.e., critical loads).",

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AU - Sánchez, Marcos

AU - Cicero, Sergio

AU - Torabi, Ali Reza

AU - Ayatollahi, Majid Reza

PY - 2021/4/1

Y1 - 2021/4/1

N2 - This paper attempts to validate the application of the Virtual Isotropic Material Concept (VIMC) in combination with the average strain energy density (ASED) criterion to predict the critical load in notched laminated composites. This methodology was applied to E/glass–epoxy-laminated composites containing U-notches. For this purpose, a series of fracture test data recently published in the literature on specimens with different notch tip radii, lay-up configurations, and a number of plies were employed. It was shown that the VIMC–ASED combined approach provided satisfactory predictions of the last-ply failure (LPF) loads (i.e., critical loads).

AB - This paper attempts to validate the application of the Virtual Isotropic Material Concept (VIMC) in combination with the average strain energy density (ASED) criterion to predict the critical load in notched laminated composites. This methodology was applied to E/glass–epoxy-laminated composites containing U-notches. For this purpose, a series of fracture test data recently published in the literature on specimens with different notch tip radii, lay-up configurations, and a number of plies were employed. It was shown that the VIMC–ASED combined approach provided satisfactory predictions of the last-ply failure (LPF) loads (i.e., critical loads).

KW - Average Strain Energy Density criterion (ASED)

KW - Fracture

KW - Laminated composite

KW - Notch

KW - Virtual Isotropic Material Concept (VIMC)

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DO - 10.3390/polym13071057

M3 - Article

AN - SCOPUS:85103891553

SN - 2073-4360

VL - 13

JO - Polymers

JF - Polymers

IS - 7

M1 - 1057

ER -

Critical load prediction in notched e/glass–epoxy-laminated composites using the virtual isotropic material concept combined with the average strain energy density criterion

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Keywords

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