Mechanical Property Analysis on Sandwich Structured Hybrid Composite Made from Natural Fibre, Glass Fibre and Ceramic Fibre Wool Reinforced with Epoxy Resin

Bharat, K R; Abhishek, S.; Palanikumar, K.

doi:10.1088/1757-899x/205/1/012015

Cited by 12 publications

(6 citation statements)

References 1 publication

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“…Fiber diameter with 3mm shows better tensile strength, flexural property and impact property than others. Bharat et al [20] has prepared two different composites first one is Aloe Vera-Ceramic Fiber Wool-Glass fiber with Epoxy resin matrix and other one is Sisal fiber-Ceramic Fiber Wool-Glass fiber with Epoxy resin matrix. Tensile strength, flexural strength and impact strength of Sisal fiber-Ceramic Fiber Wool-Glass fiber with Epoxy resin is more than Aloe Vera-Ceramic Fiber Wool-Glass fiber with Epoxy resin.…”

Section: Mechanical Properties Of Natural and Synthetic Fiber Based Hybrid Polymer Compositesmentioning

confidence: 99%

Mechanical Characterization of Natural Fiber based Polymer Matrix Composite -A Review

Mishra

Dubey

Prasad

et al. 2019

RDMS

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Environmental preservation has been a prominent concern for each country and numerous guidelines have been framed by International bodies. Due to obvious advantages use of polymer composites are increasing and automobile and aero industry are the biggest consumers. In the last few decades non degradable, hazardous fibers and matrices have been used in fabrication of composites for various applications. In recent time natural fiber such as Jute, Kemp, Cotton, Flax which are enormously found in nature are very much able to replace these hazardous fiber-based composites due to ecofriendly, biodegradable characteristics. They can also be used in hybrid composites with synthetic fibers to bring functionalities. This article is focused on some recent updates and findings in field of mechanical characterizations of natural fiber-based polymer composites.

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Section: Mechanical Properties Of Natural and Synthetic Fiber Based Hybrid Polymer Compositesmentioning

confidence: 99%

Mechanical Characterization of Natural Fiber based Polymer Matrix Composite -A Review

Mishra

Dubey

Prasad

et al. 2019

RDMS

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“…The tensile strength and hardness of natural fiber hybrid materials depended on the glass fiber content, and increased with weight concentration. On the other hand, in paper [48], two sandwich-structured hybrid composite materials were fabricated from Aloe vera fiber, ceramic fiber wool, glass fiber with the epoxy polymer matrix and from sisal fiber, ceramic fiber wool, glass fiber with epoxy polymer matrix. The mechanical analysis confirmed that the sisal fiber reinforced laminates had better mechanical properties than the Aloe vera fiber reinforced laminates.…”

Section: Introductionmentioning

confidence: 99%

Hybrid Epoxy Composites with Both Powder and Fiber Filler: A Review of Mechanical and Thermomechanical Properties

Matykiewicz

2020

Materials

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Fiber-reinforced epoxy composites are used in various branches of industry because of their favorable strength and thermal properties, resistance to chemical and atmospheric conditions, as well as low specific gravity. This review discusses the mechanical and thermomechanical properties of hybrid epoxy composites that were reinforced with glass, carbon, and basalt fabric modified with powder filler. The modification of the epoxy matrix mainly leads to an improvement in its adhesion to the layers of reinforcing fibers in the form of laminate fabrics. Some commonly used epoxy matrix modifiers in powder form include carbon nanotubes, graphene, nanoclay, silica, and natural fillers. Fiber fabric reinforcement can be unidirectional, multidirectional, biaxial, or have plain, twill, and satin weave, etc. Commonly used methods of laminating epoxy composites are hand lay-up process, resin transfer molding, vacuum-assisted resin transfer molding, and hot or cold pressing. The following review is a valuable source of information on multiscale epoxy composites due to the multitude of technological and material solutions.

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“…Therefore, investigations have been carried out to enhance the adhesion between the fibres and the polymeric matrix through adopting some techniques such as reinforcement fibre surface modification and matrix modification [109][110][111]. To this end, the fibres are subjected to various chemical treatments [112,113], such as alkali treatment [114][115][116][117], silane treatment [118][119][120][121][122][123], esterification [124][125][126][127], acid treatment [128] or hybridization with different fibres [129][130][131][132][133][134][135][136], before reacting with the matrix materials.…”

Section: Mechanical Properties Of the Biocompositesmentioning

confidence: 99%

Plant-Based Natural Fibre Reinforced Composites: A Review on Fabrication, Properties and Applications

et al. 2020

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The increasing global environmental concerns and awareness of renewable green resources is continuously expanding the demand for eco-friendly, sustainable and biodegradable natural fibre reinforced composites (NFRCs). Natural fibres already occupy an important place in the composite industry due to their excellent physicochemical and mechanical properties. Natural fibres are biodegradable, biocompatible, eco-friendly and created from renewable resources. Therefore, they are extensively used in place of expensive and non-renewable synthetic fibres, such as glass fibre, carbon fibre and aramid fibre, in many applications. Additionally, the NFRCs are used in automobile, aerospace, personal protective clothing, sports and medical industries as alternatives to the petroleum-based materials. To that end, in the last few decades numerous studies have been carried out on the natural fibre reinforced composites to address the problems associated with the reinforcement fibres, polymer matrix materials and composite fabrication techniques in particular. There are still some drawbacks to the natural fibre reinforced composites (NFRCs)—for example, poor interfacial adhesion between the fibre and the polymer matrix, and poor mechanical properties of the NFRCs due to the hydrophilic nature of the natural fibres. An up-to-date holistic review facilitates a clear understanding of the behaviour of the composites along with the constituent materials. This article intends to review the research carried out on the natural fibre reinforced composites over the last few decades. Furthermore, up-to-date encyclopaedic information about the properties of the NFRCs, major challenges and potential measures to overcome those challenges along with their prospective applications have been exclusively illustrated in this review work. Natural fibres are created from plant, animal and mineral-based sources. The plant-based cellulosic natural fibres are more economical than those of the animal-based fibres. Besides, these pose no health issues, unlike mineral-based fibres. Hence, in this review, the NFRCs fabricated with the plant-based cellulosic fibres are the main focus.

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Mechanical Property Analysis on Sandwich Structured Hybrid Composite Made from Natural Fibre, Glass Fibre and Ceramic Fibre Wool Reinforced with Epoxy Resin

Cited by 12 publications

References 1 publication

Mechanical Characterization of Natural Fiber based Polymer Matrix Composite -A Review

Mechanical Characterization of Natural Fiber based Polymer Matrix Composite -A Review

Hybrid Epoxy Composites with Both Powder and Fiber Filler: A Review of Mechanical and Thermomechanical Properties

Plant-Based Natural Fibre Reinforced Composites: A Review on Fabrication, Properties and Applications

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