Mechanical property evaluation of glass–jute fiber reinforced polymer composites

Rafiquzzaman, Md.; Islam, Md. Maksudul; Rahman, Habibur; Talukdar, Saniat; Hasan, Nahid

doi:10.1002/pat.3798

Cited by 62 publications

(29 citation statements)

References 24 publications

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“…Isotropic material properties were assigned to the plies and error between simulation and experimental values was found to be more than 10%. This study proved that while working with woven reinforcements and jute natural fiber there exists a possibility of error up to 15-20% [6].…”

Section: Introductionmentioning

confidence: 54%

Experimental and numerical characterization of tensile property of jute/carbon fabric reinforced epoxy hybrid composites

et al. 2020

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Jute based green composites are emerging materials due to their certain attractive properties like appropriate strength to weight ratio, high damping ratio, low price and corrosion resistance. Jute/carbon hybrid composite can replace carbon fiber reinforced composites without much loss in tensile strength. These hybrid composites are now being used in various automobile interior and exterior parts. In this study tensile behavior of carbon/jute reinforced epoxy hybrid textile composites, for different volume fractions of carbon and jute fibers, is studied experimentally and numerically. Tensile behavior of composite materials is always required for design and analysis of any structure. It is found that with increase in jute percentage tensile strength of hybrid composite decrease. Numerical results agrees well with experimental results and error increases with increase in jute percentage due to heterogeneous jute properties and waviness of fabrics. Fractographic study reveals that delamination phenomenon exists in between plies and jute fiber shows more pullout than carbon fiber. Scanning electron microscope analysis depicted that matrix fails in form of fragmentation while fibers show pullout during failure.

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Section: Introductionmentioning

confidence: 54%

Experimental and numerical characterization of tensile property of jute/carbon fabric reinforced epoxy hybrid composites

et al. 2020

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“…In another study, Rafiquzzaman et al. [13] fabricated jute, glass and jute/glass hybrid composites and studied their mechanical performances. Results showed that jute (tensile strength: 40 MPa, impact strength: 179 J/m 2 ) and glass fibre reinforced composite samples (tensile strength: 86 MPa, impact strength: 235 J/m 2 ) exhibited significant differences in tensile and impact strength [13].…”

Section: Introductionmentioning

confidence: 99%

Analysis of the effects of fabric reinforcement parameters on the mechanical properties of textile-based hybrid composites by full factorial experimental design method

Sezgin

Berkalp

2017

Journal of Industrial Textiles

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In this study, the effect of some fabric reinforcement parameters (fabric direction, yarn type and stacking sequence) on the mechanical properties of textile based hybrid composites are analysed by using full factorial experimental design method. The analysis of the results is achieved by using Minitab 17 software program. One factor (fabric reinforcement direction) with two levels (warp direction and weft direction) and two factors (yarn type and stacking sequence) with three levels (jute/glass, jute/carbon, glass/carbon and consecutive, low strength inside, high strength inside) are selected as the reinforcement design. Full factorial experimental design analysis results indicate that, the highest tensile and impact strength values among the experimental design are realised when samples are taken from the warp direction and E-glass/carbon combination is chosen as the yarn (material) type. Moreover, it is verified that while higher tensile strength is achieved by placing higher strength fabrics to the inner layers, higher impact strength is achieved by placing high strength fabrics to the outer layers of hybrid composite structures. Analysis of variance tables also show that at 95% confidence level, the effects of the factors are statistically significant ( p < 0.05).

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“…In numerical analysis, the individual composite plates were joined together to represent the whole model and an error of nearly 20% was observed between experimental and numerical model. They alluded that this might be due to the presence of voided content in the experimental model as a result of awed fabrication method [12].…”

Section: Introductionmentioning

confidence: 99%

“…The natural jute bers based composites are seen extensively in many automobiles parts, furniture equipment, storage of agricultural products, sports goods, and many chemical products [11]. There are plethora of experimental [12][13][14][15][16][17][18] and a few numerical techniques [19][20][21] for the mechanical characterization of Natural Fiber-Reinforced Composite (NFRPC) materials or only Natural Fiber Composites (NFC). These numerical techniques can successfully predict the mechanical properties of NFC and different synthetic bers reinforced composite within an acceptable error range [19 − 20] , [22].…”

Section: Introductionmentioning

confidence: 99%

Tensile Properties characterization of Glass and Jute Fabric-based Hybrid Composites and Applications in Engineering

Khalid

Arif²,

Sheikh³

et al. 2020

Preprint

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Composites have an exceptional prospective to replace traditional metals like steel and aluminium by offering low weight, high strength, excellent damping characteristics and outstanding performance at elevated temperatures. Jute composites are emerging significantly and are being used in the formation of green composites materials. In this study, glass-jute hybrid composites, prepared through hand layup techniques, were used with different layers of glass and jute fiber. The tensile test carried out on these composite materials was according to ASTM D3039 standard. The experimental results stipulate that the tensile properties of Glass Fiber Reinforced Polymer (GFRP) were not affected by the mixing of jute fiber in it. Also, the strength of single layer jute fabric with glass layers and GFRP composites was found out to be almost the same. Furthermore, the hybridization of jute fiber with glass fiber could improve its tensile properties. In addition to this, a numerical simulation using ABAQUS was performed, and an error of nearly 4% was found between the results obtained using numerical and experimental approaches. The error may have been resulted due to the non -uniformity in diameter of jute fiber. Moreover, to find the interfacial strength of the material, Fractography was performed on OLYMPUS Microscope. The results obtained from this analysis indicates that more pull out of jute fabric in high jute weight percentage composites is the leading cause of its lower tensile strength. The benefits of hybrid composites could be seen in many engineering and structural applications including skateboard, hockey and automobile’s interior and exterior parts.

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Mechanical property evaluation of glass–jute fiber reinforced polymer composites

Cited by 62 publications

References 24 publications

Experimental and numerical characterization of tensile property of jute/carbon fabric reinforced epoxy hybrid composites

Experimental and numerical characterization of tensile property of jute/carbon fabric reinforced epoxy hybrid composites

Analysis of the effects of fabric reinforcement parameters on the mechanical properties of textile-based hybrid composites by full factorial experimental design method

Tensile Properties characterization of Glass and Jute Fabric-based Hybrid Composites and Applications in Engineering

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