Influence of Reduced Graphene Oxide on Epoxy/Carbon Fiber‐Reinforced Hybrid Composite: Flexural and Shear Properties under Varying Temperature Conditions

Jenkins, Paddy; Siddique, Shohel; Khan, Samrin; Usman, Aliyu; Starost, Kristof; Macpherson, Allan; Bari, Pravin; Mishra, Satyendra; Njuguna, James

doi:10.1002/adem.201800614

Cited by 28 publications

(18 citation statements)

References 31 publications

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“…Thus, the inability to accurately design the curing process may lead to a poor fibre/matrix bonding, large residual stress, and can even lead to thermal degradation of the matrix due to high temperature [57]. [58] Biobased Epoxy resin Pouladvand et al, [59] DGEBA Epoxy and EPON828 Epoxy resin H. Li et al, [60] Epoxy Resin Gbadeyan et al, [61] LR 30 and LH 30 Epoxy resin Memon et al, [62] AFG-90H Epoxy resin Walte et al, [63] HSC 7660 Epoxy resin Shi et al, [64] Epoxy Resin Raju et al, [65] LY556 Epoxy resin C. Zheng et al, [66] Phenolic Resin S. Yang et al, [67] DGEBA Epoxy resin S. Y. Kim et al, [68] EPON828 Epoxy resin Austermann et al, [69] Epoxy-based photopolymer resin EPX81 K. Zhang et al, [70] DGEBA E51 Epoxy resin Shukla et al, [71] LY556 Epoxy resins Jenkins et al, [72] IN2 Epoxy Ekrem et al, [73] DGEBA Epoxy resin Zhao et al, [74] DGEBA Epoxy resin Lei et al, [75] Modified resol phenolic resin Billisik and Sapanci [76] Araldite EPN 1138 Phenolic Resin Ciesielski et al, [77] DGEBA Epoxy resin Asaro et al, [78] Ammonium-modified phenolic resin Martins et al, [79] DGEBA Epoxy resin M. Li et al, [80] Epoxy resin E51…”

Section: Factors That Affect the Rheological Behaviour 31 The Study Of Impregnation Process Using Various Types Of Resin And Fibresmentioning

confidence: 99%

A Rheological Study of Fibre Reinforced Composites and The Factors That Affect Rheological Behaviour During Impregnation Process: A Review

Zuhudi

Fadzil

Zulkifli

et al. 2021

ARFMTS

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Rheological behaviour is an important factor affecting the flow behaviour of a fluid and many aspects related to this, mainly in the manufacturing process of fiber reinforced composites, either for Newtonian fluids or non-Newtonian fluids. During impregnation process, the viscosity changes with temperatures and their strain rate, has influenced the resin flow behaviour during curing process. In this paper, a review on the rheological studies of fiber reinforced composites for both, synthetic and natural based fibers, respectively, are presented. In addition to that, this review paper highlighting a few research studies conducted in literature on the main factors that affecting the rheological quality and performance of the composites. The aims of this review, mainly to capture the trend ranging from the recent five years back and summarize the various studies via experimental, theoretical or modelling works. Furthermore, also aiming to provide an ideal baseline information in the selection of the methods regarding rheological study to ensure better quality of pre-preg product and fibre reinforced composites can be produced in the author’s future work.

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Section: Factors That Affect the Rheological Behaviour 31 The Study Of Impregnation Process Using Various Types Of Resin And Fibresmentioning

confidence: 99%

A Rheological Study of Fibre Reinforced Composites and The Factors That Affect Rheological Behaviour During Impregnation Process: A Review

Zuhudi

Fadzil

Zulkifli

et al. 2021

ARFMTS

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“…A most recent study by Jenkins et al (2019) focused on the evaluation of epoxy/carbon fiber-reinforced composite containing varying quantities of rGO and examine the shear and flexural properties of these samples at varying temperatures form −10 to 40 • C. They employed the resin infusion technique to manufacture the hybrid composites as demonstrated on Figure 7.…”

Section: Strength and Stiffnessmentioning

confidence: 99%

Recent Developments in Graphene Oxide/Epoxy Carbon Fiber-Reinforced Composites

2019

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The two-dimensional macro molecule graphene and its derivatives have widely been investigated for their application as nanofiller in carbon fiber-reinforced composites (CFRC). Research has progressed from techniques that disperse graphene as a mixing constituent within the composite material to more complex examples where graphene is covalently bonded to fiber, matrix or both via multiple reaction steps. This field of research is multidisciplinary whereby branches of materials, engineering, polymer science, physics and chemistry often overlap. From the materials engineering perspective, the desire is to discover the novel materials targeting industrial applications and obtain a full understanding of the graphene oxide chemistry and interaction of graphene oxide with a polymer matrix. To date, most of the research is targeted at (i) improving the fiber/matrix interface properties and/or (ii) improving the dispersion of nanofiller within the matrix; both factors ultimately improve composite performance. Organizing that information critically can lead to emergence of a generalization of material design. Therefore, the objective of this work is to critically review current state of art in the field of graphene oxide/epoxy CFRCs and propose the design rules based on current scientific trend and common themes for future works.

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“…Jenkins et al's study on the influence of reduced graphene oxide (rGO) as nanofiller to modify epoxy matrix characteristics in a CFRP can be seen as a bridge between conventional fiber reinforced composites on the one hand and hybrid materials and nanocomposites on the other. In it, bending and shear tests are performed at different rGO content levels which concentrate on the influence of temperatures between −10 and +40 °C on mechanical characteristics and failure modes …”

Section: Contributions To the Euromat Symposiummentioning

confidence: 99%

New Materials and Processes for Transport Applications: Going Hybrid and Beyond

et al. 2019

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The present text introduces a Special Section of Advanced Engineering Materials linked to the symposium Advanced Materials for Transport Applications organized by the authors within the framework of the EUROMAT 2017 conference. It introduces the contributions that make up this Special Section, and takes the fact that a majority of them is related to the broader topic of hybrid materials and structures as a motivation for a short overview of this exciting area of research.

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Influence of Reduced Graphene Oxide on Epoxy/Carbon Fiber‐Reinforced Hybrid Composite: Flexural and Shear Properties under Varying Temperature Conditions

Cited by 28 publications

References 31 publications

A Rheological Study of Fibre Reinforced Composites and The Factors That Affect Rheological Behaviour During Impregnation Process: A Review

A Rheological Study of Fibre Reinforced Composites and The Factors That Affect Rheological Behaviour During Impregnation Process: A Review

Recent Developments in Graphene Oxide/Epoxy Carbon Fiber-Reinforced Composites

New Materials and Processes for Transport Applications: Going Hybrid and Beyond

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