A study on the energy absorption properties of carbon/aramid fiber filament winding composite tube

Ma, Yan; Sugahara, Tohru; Yang, Yuqiu; Hamada, Hiroyuki

doi:10.1016/j.compstruct.2014.12.067

Cited by 86 publications

(48 citation statements)

References 13 publications

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“…Also, the specific energy absorption of hybrid configuration was lower than that of glass configuration. Ma et al and Xu et al investigated experimentally the energy absorption capability of carbon/aramid (CA) and carbon/aramid/glass (CAG) fiber hybrid composite tubes. It was observed that without temperature treatment, carbon fiber tubes exhibited more excellent specific absorption energy than GCG and ACA hybrid tubes with the same structure under both static and dynamic tests.…”

Section: Introductionmentioning

confidence: 99%

Crashworthiness characteristics of carbon–jute–glass reinforced epoxy composite circular tubes

et al. 2017

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This article provides an experimental investigation into the crashworthiness of carbon–jute–glass reinforced epoxy circular composite tubes. The test specimens were fabricated of 6 layers with different stacking sequence using wet‐wrapping process and tested under uniaxial quasi‐static compression loading up to complete crushing. The effects of hybrid reinforcement, stacking sequence, and relative reinforcement amounts on the energy absorption capabilities and failure modes were studied. Also, the crush load–displacement response, initial crushing failure load, total energy absorption, specific energy absorption, average crushing load, and crushing force efficiency were determined and discussed. The scanning electron microscope study was considered to analyze the failure modes of the crushed specimens. Results indicate that specimens' failure modes and energy absorption capabilities were highly dominated by the reinforcement combinations and plies stacking sequence. Also, hybrid carbon–jute–glass reinforced epoxy composite tubes have the potential to be used as energy absorbers as compared to jute‐reinforced epoxy composite tubes. The JGC composite tube has a higher load carrying capacity and energy absorption capability compared to other hybrid composite tubes, so it seems to be the best appropriate choice for energy absorbing devices. POLYM. COMPOS., 39:E2245–E2261, 2018. © 2017 Society of Plastics Engineers

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Section: Introductionmentioning

confidence: 99%

Crashworthiness characteristics of carbon–jute–glass reinforced epoxy composite circular tubes

et al. 2017

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“…In order to exploit the advantages of composite laminates, reliable prediction of the mechanical behavior of such laminates is essential. An important aspect of composite material behavior is the reduction of stiffness due to damage attributed mainly to matrix cracking [20,21]. Several models describing the anisotropic damage behavior of composite laminates have been presented in the literatures [22][23][24][25].…”

Section: Introductionmentioning

confidence: 99%

Simulating Initial and Progressive Failure of Open-Hole Composite Laminates under Tension

Guo

Zhu

et al. 2016

Appl Compos Mater

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A finite element (FE) model is developed for the progressive failure analysis of fiber reinforced polymer laminates. The failure criterion for fiber and matrix failure is implemented in the FE code Abaqus using user-defined material subroutine UMAT. The gradual degradation of the material properties is controlled by the individual fracture energies of fiber and matrix. The failure and damage in composite laminates containing a central hole subjected to uniaxial tension are simulated. The numerical results show that the damage model can be used to accurately predicte the progressive failure behaviour both qualitatively and quantitatively.

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“…Till now, fiber reinforced plastics (FRPs) have given rise to a wide range of engineering applications of types of materials to various application fields including aerospace and aircraft structure, yachts as well as wind generator blades and other products on the account of their outstanding mechanical properties, lightweight and longer service life [1]- [8]. Lots of present traditional materials, metal for instance, were gradually substituted by some new replacements such as carbon fiber reinforced plastics (CFRPs) [6] [7] [8].…”

Section: Introductionmentioning

confidence: 99%

“…The properties of CFRPs are related to lots of factors such as properties of raw materials [9] [10], fiber orientation [11], manufacturing processes [12] and compatibility between fiber and resin [2]. Lots of methods to improve the mechanical properties of CFRPs such as reasonable structure optimization (hybrid reinforcements [13] [14], layup [15] and so on), fiber treatment [16], post-treatment [1] [5], and micro-or nano-scale filler doping [17] [18] [19] have been carried out.…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Flexural Properties and Failure Behavior of Unidirectional CF/Nylon 6 and CF/Epoxy Composites

Ma¹,

Ueda²,

Yokozeki³

et al. 2017

OJCM

Self Cite

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In this work, flexural properties and failure behavior of unidirectional (UD) carbon fiber reinforced polyamide 6 (CF/Nylon 6) and epoxy resin (CF/ Epoxy) laminates were investigated through three-point bending test. The mechanical properties and failure behavior of 0 and 90 degree CF/Nylon 6 and CF/Epoxy laminates were discussed based on the fiber volume fraction, fiber distribution, void content, interfacial properties, transversal tensile strength and fracture toughness. The effects of fiber volume fraction, fiber distribution, void content and their hybrid effect on the flexural properties were investigated.Step-by-step observation and scanning electron microscope observation of laminates after flexural tests were employed to analyze the fracture process.

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A study on the energy absorption properties of carbon/aramid fiber filament winding composite tube

Cited by 86 publications

References 13 publications

Crashworthiness characteristics of carbon–jute–glass reinforced epoxy composite circular tubes

Crashworthiness characteristics of carbon–jute–glass reinforced epoxy composite circular tubes

Simulating Initial and Progressive Failure of Open-Hole Composite Laminates under Tension

Investigation of the Flexural Properties and Failure Behavior of Unidirectional CF/Nylon 6 and CF/Epoxy Composites

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