Experimental investigation on the mechanical properties of glass fiber reinforced nylon

Nuruzzaman, Dewan Muhammad; Iqbal, Arif; Oumer, A. N.; Ismail, Noor Mazni; Basri, Shahnor

doi:10.1088/1757-899x/114/1/012118

Cited by 37 publications

(21 citation statements)

References 13 publications

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“…Increase in wt% glass fiber improved the flexural strength and modulus to 360 MPa & 11.46 GPa at 50 wt% and 375 MPa & 13 GPa at 60 wt% glass fiber. At increased glass fiber weight percentage, instigation of plastic deformation arises at a greater stress level [38]. The increased weight percentage of glass fiber in GFENCs, therefore, shows significant changes in flexural strength and modulus.…”

Section: Sem Analysismentioning

confidence: 99%

Hygrothermal chamber aging effect on mechanical behavior and morphology of glass fiber-epoxy-nanoclay composites

Shettar

Kini

Sharma

et al. 2020

Mater. Res. Express

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This work examines the impact of artificial aging on tensile and flexural behavior of epoxy-nanoclay composites (ENCs) and glass fiber-epoxy-nanoclay composites (GFENCs) in the hygrothermal chamber. Epoxy-nanoclay composites made by a general-casting technique, and GFENCs are made by hand layup technique. The specimens are aged in the hygrothermal chamber for 180 days at 40°C with 60% RH. The results revealed that an increase in nanoclay and glass fiber weight percentage enhanced the mechanical behavior of GFENCs. The aging of the sample has a negative influence on the composite materials. But, the increase in nanoclay and glass fiber weight percentage has diminished the impact of aging on the mechanical behavior of composites. SEM micrographs revealed the reason for the failure and influence of aging conditions.

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Section: Sem Analysismentioning

confidence: 99%

Hygrothermal chamber aging effect on mechanical behavior and morphology of glass fiber-epoxy-nanoclay composites

Shettar

Kini

Sharma

et al. 2020

Mater. Res. Express

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“…Nylon (PA)-based composites are an important engineering material with excellent mechanical properties, thermal stability, and processability [ 14 ], particularly glass fiber-reinforced nylon (GF/PA). Adding the glass fiber into the PA matrix could achieve increased load-bearing capacity and mechanical properties because the fibers retard the rapid growth of cracks [ 15 , 16 ]. The interface of each fiber and the matrix can refine the crack and cause it to propagate in multiple directions, thus extending the propagation length.…”

Section: Introductionmentioning

confidence: 99%

Microstructure and Properties of Glass Fiber-Reinforced Polyamide/Nylon Microcellular Foamed Composites

Wang

Xie

et al. 2020

Polymers

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The automobile and aerospace industries require lightweight and high-strength structural parts. Nylon-based microcellular foamed composites have the characteristics of high strength and the advantages of being lightweight as well as having a low production cost and high product dimensional accuracy. In this work, the glass fiber-reinforced nylon foams were prepared through microcellular injection molding with supercritical fluid as the blowing agent. The tensile strength and weight loss ratio of microcellular foaming composites with various injection rates, temperatures, and volumes were investigated through orthogonal experiments. Moreover, the correlations between dielectric constant and injection volume were also studied. The results showed that the “slow–fast” injection rate, increased temperature, and injection volume were beneficial to improving the tensile strength and strength/weight ratios. Meanwhile, the dielectric constant can be decreased by building the microcellular structure in nylon, which is associated with the weight loss ratio extent closely.

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“…Hal ini menunjukkan bahwa serat kaca dapat menempati ruang antarmolekul antara rantai polimer sehingga mengurangi kekuatan sekunder di antara rantai polimer yang menyebakan molekul polimer mudah bergerak dan bila terkena tarikan menyebabkan mudah patah. Hal ini juga seperti hasil penelitian Gaji and Satyanarayana (2016) yang menyatakan kekuatan tarik ABS/serat kaca lebih tinggi dari pada kekuatan tarik ABS murni, Nuruzzaman et al (2016) juga menyatakan bahwa serat kaca menaikkan kekuatan tarik komposit nilon/serat kaca dimana pada penelitian tersebut membandingkan sifat kuat tarik nilon murni dan komposit nilon yang berisi serat kaca 5%, 10%, 15%, dan 20%. Hasil penelitian Malinoski (2011) menunjukkan bahwa penambahan serat kaca menaikkan kekuatan tarik kompon PC.…”

Section: Hasil Dan Pembahasan Sifat Fisisunclassified

Pengaruh bahan pengisi serat kaca terhadap sifat fisik dan kristalinitas polipaduan PC/ABS

Nurhajati¹,

Sholeh²,

Indrajati³

et al. 2017

MKKP

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This research aimed to determine the effects of the addition of glass fibers on the physical and crystallinity properties of PC/ABS polyblends. The ratio of PC/ABS used in this research of PC/ABS polyblends increased with an increase in the glass fiber content. The presence of glass fibers decreased MFI and impact strength of these PC/ABS polyblends. The functional groups were determined by the fourier transform infrared (FTIR) spectrophotometer while crystallinity was examined using X-ray diffractometer (XRD).Keywords: PC/ABS polyblend, glass fiber, physical properties, crystallinity. ABSTRAKTujuan penelitian ini untuk mempelajari pengaruh penambahan serat kaca terhadap sifat fisik dan kristalinitas polipaduan PC/ABS. Perbandingan PC/ABS yang digunakan pada penelitian ini adalah 75/25 dan serat kaca yang ditambahkan divariasi dari 0; 5; 10 dan 15 phr (berbasis pada berat PC/ABS). Polipaduan PC/ABS/serat kaca dibuat di dalam twin screw extruder. Hasil uji menunjukkan bahwa semakin banyak serat kaca, yang ditambahkan, menaikkan densitas dan kekuatan tarik polipaduan PC/ABS. Adanya serat kaca menurunkan MFI dan kekuatan impak dari polipaduan PC/ABS. Karakterisasi gugus fungsi ditentukan dengan spektrofotometer fourier transform infra red (FTIR) dan uji kristalinitas dengan X-ray diffractometer (XRD).Kata kunci: polipaduan PC/ABS, serat kaca, sifat fisis, kristalinitas.

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Experimental investigation on the mechanical properties of glass fiber reinforced nylon

Cited by 37 publications

References 13 publications

Hygrothermal chamber aging effect on mechanical behavior and morphology of glass fiber-epoxy-nanoclay composites

Hygrothermal chamber aging effect on mechanical behavior and morphology of glass fiber-epoxy-nanoclay composites

Microstructure and Properties of Glass Fiber-Reinforced Polyamide/Nylon Microcellular Foamed Composites

Pengaruh bahan pengisi serat kaca terhadap sifat fisik dan kristalinitas polipaduan PC/ABS

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