Fatigue behavior of unidirectional fiber‐reinforced pultruded composites with high volume fiber fraction-Reference-Cited by-同舟云学术

Fatigue behavior of unidirectional fiber‐reinforced pultruded composites with high volume fiber fraction

Published:2023-03-06 Issue:6 Volume:46 Page:2034-2048
ISSN:8756-758X
Container-title:Fatigue & Fracture of Engineering Materials & Structures
language:en
Short-container-title:Fatigue Fract Eng Mat Struct

Author:

Alajarmeh Omar¹^ORCID,Manalo Allan¹,Ferdous Wahid¹,Almasabha Ghassan²^ORCID,Tarawneh Ahmad²^ORCID,Awwad Khaled Eayal³,Safonov Alexander⁴,Zeng Xuesen¹,Schubel Peter¹

Affiliation:

1. Centre for Future Materials University of Southern Queensland Toowoomba Queensland Australia

2. Civil Engineering Department, Faculty of Engineering The Hashemite University Zarqa Jordan

3. Department of Mechanical Engineering Tafila Technical University Tafilah Jordan

4. Centre for Design, Manufacturing and Materials Skolkovo Institute of Science and Technology Moscow Russia

Abstract

AbstractPultrusion is a high‐volume manufacturing process for fiber‐reinforced polymer (FRP) composites ensuring high strength and quality products. However, research studies are very limited on the fatigue behavior of these products, especially with unidirectional fiber alignment. This study investigates the fatigue behavior of the unidirectional pultruded glass FRP (GFRP) composites with high fiber volume fraction ( ). Tension–tension fatigue loading was applied with different levels of applied stress, frequency, and gripping condition until failure. Results showed that the high composites have significantly low fatigue life cycle. Moreover, increasing the frequency showed better fatigue resistance, while the tabs geometry has insignificant effect on the fatigue behavior of the dog‐bone shaped specimens. Comparison with available literature showed that GFRP composites with high have lower fatigue performance than those with low . A fatigue capacity reduction factor is also proposed for unidirectional GFRP composites as a function of the .

Publisher

Wiley

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/ffe.13979

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