Impact of Cenosphere on the Erosion Wear Response of Woven Hybrid Jute–Glass Epoxy Composites

Dalbehera, Soma; Acharya, S. K.

doi:10.1002/adv.21662

Cited by 23 publications

(9 citation statements)

References 27 publications

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“…It was revealed that the addition of cenophere increases the erosion resistance, but an increment in the weight percentage of cenosphere particles beyond a certain threshold leads to a reduction in impact velocity. [421] Abhishek F I G U R E 3 2 Schematic representation of the effects of alkali and high intensity ultrasound treatments on the sisal fibers [416] et al fabricated hybrid epoxy composites containing carbon fiber, Phoenix pusilla plant dry leaves and a nanofiller made from fish bones. The results validated that adding the bio-nanofillers to the hybrid polymer composites permits an enhancement in the tensile strength, flexural strength, and hardness of the composites.…”

Section: Progress In 2011-2015mentioning

confidence: 99%

Lignocellulosic fiber reinforced composites: Progress, performance, properties, applications, and future perspectives

Rangappa¹,

Siengchin²,

et al. 2021

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Environmental awareness across the world has motivated researchers to focus their attention on the use of cellulosic fiber as reinforcement in polymer matrices.Lignocellulosic fibers are an abundantly available resource in all countries, which is cheap and easily renewable. Also, due to their properties, cellulosic plant fibers exhibit a great potential for use in polymer reinforcement. As a result, considerable research and development efforts have been directed towards the use of cellulosic fibers as a reinforcing material in composites. The use of cellulosic fiber reinforced composites has continuously increased during recent years, which benefits the cultivation of fiber plants and the economy of the country. This research area continues to be of interest to both industry and academia, the use of cellulosic fibers in composite applications being investigated throughout the world. Cellulosic fiber reinforced composites are reasonably strong, lightweight, harmless to human health and the environment, and biodegradable, hence they have the potential to be used in various applications. Recent progress in cellulosic fiber composites research has illustrated their great potential as structural components in automobiles, aerospace structures, construction, and building, and so forth. This study is an effort to create awareness about the research works that have been published in the field of natural fiber composites. This review briefly illustrates the main paths and results of major research published in the field of natural fiber reinforced polymer composites. The topics covered include the aspects of fiber treatment to improve the mechanical properties of the composites, manufacturing methods, performance of hybrid composites, effect of laminate configuration, and many different applications of natural fiber composites.By presenting a systematic view of the work performed in this area so far, this review will hopefully serve as a starting point for the development of new ideas in the research on natural fiber polymer composites.

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Section: Progress In 2011-2015mentioning

confidence: 99%

Lignocellulosic fiber reinforced composites: Progress, performance, properties, applications, and future perspectives

Rangappa¹,

Siengchin²,

et al. 2021

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“…on the erosion rate of the polymer composite. [2][3][4][5] In addition to this, Dalbehera and Acharya 3 along with Antil et al 6,7 studied the additional effect of particulate fillers along with fibers on the erosion behavior of epoxy based composites. The authors are of the view that the addition of particulate filler like SiCp and cenosphere improves the wear resistance of unreinforced fibers.…”

Section: Introductionmentioning

confidence: 99%

Solid particle erosive wear behaviour of Eulaliopsis binata fiber reinforced epoxy composite

Pradhan

Acharya

2020

Proceedings of the Institution of Mechanical Engineers, Part J:

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In the present work, Eulaliopsis binata, a natural fiber collected from the eastern part of India is taken as a reinforcement with epoxy resin to develop a new class of polymer composite material, which has been unexplored till date for tribological applications in the composite industry. Different characterization studies of the fiber such as SEM, EDS, XRD are carried out to astern its potential to be used as a fiber in composite. Short Eulaliopsis binata fiber of different weight percent (10, 20, 30, and 40) is incorporated in neat epoxy and polymer composites are fabricated using the hand lay-up method. Solid particle erosion behavior of the fabricated composites is studied with four different impact velocities (48, 72, 82, 116 m/s) and impinging angles (30°, 45°, 60°, 90°). Improved erosion wear resistance is exhibited by the composites after the addition of Eulaliopsis binata fiber to neat epoxy. In addition, the inclusion of fiber altered the erosion behavior of neat epoxy from brittle to semi ductile nature. The impact velocity of the erodent particles also shows significant effect on the erosion behavior of the developed composites. The eroded surfaces of the worn samples are analyzed with SEM to ascertain the failure mechanism of the developed composites.

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“…In this study, AESO modified epoxy resin reinforced with four-ply jute woven fabrics and are produced by the vacuum infusion method. When literature is examined, it is seen that mostly four, six, eight and ten plied fabric reinforced composite plates were produced [35][36][37][38][39][40][41][42][43][44][45]. Since the main aim of this study is to investigate the effect of bio-resin ratio on the properties of composite material, the minimum number of fabric layers (4) is chosen.…”

Section: Introductionmentioning

confidence: 99%

Hybrid bio-based composites from blends of epoxy and soybean oil resins reinforced with jute woven fabrics

Ozkur

Sezgin

Akay

et al. 2020

Mater. Res. Express

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In our world, where environmental factors are taken into consideration more and more, the interest in biomaterials leaves its place to the need and this leads the researchers to search for new materials. The aim of this study is to produce an environmentally friendly, sustainable material with the use of a plant oilbased bio-resin (acrylated epoxidized soybean oil). In this context, bio-composites containing different proportions (from 0 to 100 wt%, in 10% increments) of acrylated epoxidized soybean oil (AESO) and epoxy resin are reinforced with four-ply jute woven fabric and produced by the vacuum infusion method. The bio-composites produced within the scope of the study analyzed physically (fiber weight ratio), mechanically (tensile strength, flexural strength, drop-weight impact resistance, and Charpy impact strength), instrumentally (differential scanning calorimetry and Fourier-transform infrared spectroscopy) and morphologically (scanning electron microscopy). According to the results, the tensile and flexural strength values of the composites containing more than 30 wt% AESO resin decrease due to the ductility of the structure; subsequently, composites with AESO content above 50 wt% are found to exhibit superior impact resistance. Composites with pure AESO resin absorb 7 J energy which is almost 3 times higher than pure epoxy composites. The maximum tensile strength (63 MPa) of composites are achieved for 30 wt% AESO content indicating the newly formed hydrogen bonding leading to enhanced fiber-matrix interface. The bio-composites designed and produced in the project have been a promising alternative for various end-use areas, from construction elements to the automotive sector and sports equipment, where human health and environmental elements are considered.

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Impact of Cenosphere on the Erosion Wear Response of Woven Hybrid Jute–Glass Epoxy Composites

Cited by 23 publications

References 27 publications

Lignocellulosic fiber reinforced composites: Progress, performance, properties, applications, and future perspectives

Lignocellulosic fiber reinforced composites: Progress, performance, properties, applications, and future perspectives

Solid particle erosive wear behaviour of Eulaliopsis binata fiber reinforced epoxy composite

Hybrid bio-based composites from blends of epoxy and soybean oil resins reinforced with jute woven fabrics

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