Experimental-theoretical predictions of stress–strain curves of Glare fiber metal laminates

Hale Ergun; Benjamin M. Liaw; Feridun Delale

doi:10.1177/0021998317702954

Experimental-theoretical predictions of stress–strain curves of Glare fiber metal laminates

Hale Ergun^*, Benjamin M. Liaw, Feridun Delale

^*Corresponding author for this work

Department of Civil Engineering

City University of New York

Research output: Contribution to journal › Review article › peer-review

4 Citations (Scopus)

Abstract

Monotonic tensile tests are conducted on seven different Glare grades of fiber metal laminates. In-situ stress–strain curves of glass/epoxy laminate interleaved in Glare 2(3/2) are exposed with the application of metal volume fraction method using the stress–strain curves of Glare 2(3/2) and Aluminum 2024-T3 in unidirectional and transverse directions. The strain–stress curves of cross-ply Glares are predicted by the modification of this method with an empirical parameter and a second parameter considering the relative glass/epoxy laminate thickness ratios of Glare grades. Modified metal volume fraction method presented in this study can be used as a preliminary estimation of stress–strain curves of multiple possible fiber metal laminate configurations without testing.

Original language	English
Pages (from-to)	109-121
Number of pages	13
Journal	Journal of Composite Materials
Volume	52
Issue number	1
DOIs	https://doi.org/10.1177/0021998317702954
Publication status	Published - 1 Jan 2018

Bibliographical note

Publisher Copyright:
© 2017, © The Author(s) 2017.

Keywords

experiment
Fiber metal laminate
Glare grades
glass/epoxy prepreg composite
hybrid laminate
metal volume fraction method
monotonic tensile testing
stress–strain behavior

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10.1177/0021998317702954

Cite this

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title = "Experimental-theoretical predictions of stress–strain curves of Glare fiber metal laminates",

abstract = "Monotonic tensile tests are conducted on seven different Glare grades of fiber metal laminates. In-situ stress–strain curves of glass/epoxy laminate interleaved in Glare 2(3/2) are exposed with the application of metal volume fraction method using the stress–strain curves of Glare 2(3/2) and Aluminum 2024-T3 in unidirectional and transverse directions. The strain–stress curves of cross-ply Glares are predicted by the modification of this method with an empirical parameter and a second parameter considering the relative glass/epoxy laminate thickness ratios of Glare grades. Modified metal volume fraction method presented in this study can be used as a preliminary estimation of stress–strain curves of multiple possible fiber metal laminate configurations without testing.",

keywords = "experiment, Fiber metal laminate, Glare grades, glass/epoxy prepreg composite, hybrid laminate, metal volume fraction method, monotonic tensile testing, stress–strain behavior",

author = "Hale Ergun and Liaw, {Benjamin M.} and Feridun Delale",

note = "Publisher Copyright: {\textcopyright} 2017, {\textcopyright} The Author(s) 2017.",

year = "2018",

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doi = "10.1177/0021998317702954",

language = "English",

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journal = "Journal of Composite Materials",

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T1 - Experimental-theoretical predictions of stress–strain curves of Glare fiber metal laminates

AU - Ergun, Hale

AU - Liaw, Benjamin M.

AU - Delale, Feridun

PY - 2018/1/1

Y1 - 2018/1/1

N2 - Monotonic tensile tests are conducted on seven different Glare grades of fiber metal laminates. In-situ stress–strain curves of glass/epoxy laminate interleaved in Glare 2(3/2) are exposed with the application of metal volume fraction method using the stress–strain curves of Glare 2(3/2) and Aluminum 2024-T3 in unidirectional and transverse directions. The strain–stress curves of cross-ply Glares are predicted by the modification of this method with an empirical parameter and a second parameter considering the relative glass/epoxy laminate thickness ratios of Glare grades. Modified metal volume fraction method presented in this study can be used as a preliminary estimation of stress–strain curves of multiple possible fiber metal laminate configurations without testing.

AB - Monotonic tensile tests are conducted on seven different Glare grades of fiber metal laminates. In-situ stress–strain curves of glass/epoxy laminate interleaved in Glare 2(3/2) are exposed with the application of metal volume fraction method using the stress–strain curves of Glare 2(3/2) and Aluminum 2024-T3 in unidirectional and transverse directions. The strain–stress curves of cross-ply Glares are predicted by the modification of this method with an empirical parameter and a second parameter considering the relative glass/epoxy laminate thickness ratios of Glare grades. Modified metal volume fraction method presented in this study can be used as a preliminary estimation of stress–strain curves of multiple possible fiber metal laminate configurations without testing.

KW - experiment

KW - Fiber metal laminate

KW - Glare grades

KW - glass/epoxy prepreg composite

KW - hybrid laminate

KW - metal volume fraction method

KW - monotonic tensile testing

KW - stress–strain behavior

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DO - 10.1177/0021998317702954

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AN - SCOPUS:85038814896

SN - 0021-9983

VL - 52

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EP - 121

JO - Journal of Composite Materials

JF - Journal of Composite Materials

IS - 1

ER -

Experimental-theoretical predictions of stress–strain curves of Glare fiber metal laminates

Abstract

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Keywords

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