Determination of Strength Parameters of Glass Fibers Reinforced Composites for Engineering Applications

Singh, M. Muralidhar; Kumar, Harinandan; Kumar, G. Hemath; Sivaiah, P.; Nagesha, K. V.; Ajay, K.M.; Vijaya, G.

doi:10.1007/s12633-019-0078-3

Cited by 61 publications

(9 citation statements)

References 12 publications

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“…39,40 It has been known that the tensile strength in polymer composites highly dependent on the orientations of GFs. 41,42 The tensile strength of the GF reinforced polymer composites (without CNTs) for the combination of 0 and 90 fiber orientations and 60 wt% GFs was reported as about 400 MPa, [43][44][45] that is consistent with our data. The tensile tests for the composites with various MWCNT loadings were also performed as shown in Figure S1.…”

Section: Mechanical Propertiessupporting

confidence: 91%

High density interfaces enhanced microwave absorption in multifunctional carbon nanotubes‐glass fiber‐epoxy composites

Zhao

Xia

Adamaquaye

et al. 2021

Polymers for Advanced Techs

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Section: Mechanical Propertiessupporting

confidence: 91%

High density interfaces enhanced microwave absorption in multifunctional carbon nanotubes‐glass fiber‐epoxy composites

Zhao

Xia

Adamaquaye

et al. 2021

Polymers for Advanced Techs

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“…In addition, the C2 coded material has an impact strength of 7.46 and a hardness value of 82.9, indicating a strong interfacial cohesion between the PA66 and the GF reinforcement element, similarly to Ref. [41]. In other words, although GF-reinforced composites exhibit more isotropic behavior compared to GB-reinforced composites, a good interfacial bond creates a favorable effect for the impact strength by distributing the strain energy uniformly on the material.…”

Section: Mechanical Propertiesmentioning

confidence: 79%

Evaluation of the Mechanical Properties and Drilling of Glass Bead/Fiber-Reinforced Polyamide 66 (PA66)-Based Hybrid Polymer Composites

et al. 2022

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In this study, mechanical testing of glass bead (GB), glass fiber (GF), and hybrid (GB/GF) composites was carried out. Following that, drilling tests were undertaken on glass bead/fiber-reinforced hybrid Polyamide 66 (PA66) polymer composites. The purpose of this study is to determine the mechanical properties of the cutting elements and the effect of cutting parameters (spindle speed and feed rate) and reinforcement ratios on thrust force and surface roughness (Ra). The contribution of the cutting parameters to the investigated outcomes was determined using statistical analysis. Optical microscopy and scanning electron microscopy (SEM) was used to inspect the hole quality and damage mechanisms. The results revealed that the feed rate was the most contributing factor to thrust force (96.94%) and surface roughness (63.59%). Furthermore, in comparison to other hybrid composites, the lowest Ra value was obtained as 0.95 µm in samples containing 30% GB, while the Ra value was 1.04 µm in samples containing 10% GF + 20% GB. Polymer PA reinforced with 30% GF had the highest strength, modulus of elasticity, impact strength, and hardness.

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“…[ 1–5 ] Among them, glass fiber‐reinforced composites (GFRC), a class of structural composite material, are being rapidly developed in aerospace, automotive industry, electrical industry and other fields due to their remarkable properties, such as low cost, stiffness, light weight, good load‐carrying capacity, and excellent mechanical and physical properties. [ 6,7 ] The realization of GFRC with excellent mechanical properties is the focus of this research. Several studies have been carried out to enhance the mechanical properties of polymer matrices and determine the relationship between fiber composites and the mechanical properties.…”

Section: Introductionmentioning

confidence: 99%

“…load-carrying capacity, and excellent mechanical and physical properties. [6,7] The realization of GFRC with excellent mechanical properties is the focus of this research. Several studies have been carried out to enhance the mechanical properties of polymer matrices and determine the relationship between fiber composites and the mechanical properties.…”

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confidence: 99%

Structural, electrical, and electromagnetic shielding properties of nanocarbon‐coated glass fiber‐reinforced polypropylene

et al. 2022

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Glass fiber-reinforced composites (GFRC), widely applied in the automobile, aerospace, domestic appliance, sport equipment, and other fields, are indispensable in modern society. In this article, conductive nanocarbon-coated glass fibers (NCGFs) were hybridized with suitable polymers for the fabrication of new composite materials. NCGFs have good dispersion and interfacial interactions within polypropylene matrices. The electrical conductivity of a nanocarbon-coated glass fibers-reinforced composite (NCGFRC) was increased 10 8 times more than that of a pure polymer, which provided the NCGFRC with an electromagnetic shielding efficiency (8.2-12.4 GHz) of 22 dB. At the same time, the thermal conductivity of NCGFRC was also improved. NCGFRC will expand the types of GFRC available and further expand the application of GFRC into other fields.conductive composites, electrical properties, nanocarbon-coated glass fibers, shielding efficiency | INTRODUCTIONFiber-reinforced materials range more and more widely with more varieties of fiber types, including polymer fiber, carbon fiber, natural fiber, basalt fiber, glass fiber, and so forth. [1][2][3][4][5] Among them, glass fiber-reinforced composites (GFRC), a class of structural composite material, are being rapidly developed in aerospace, automotive industry, electrical industry and other fields due to their remarkable properties, such as low cost, stiffness, light weight, good

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Determination of Strength Parameters of Glass Fibers Reinforced Composites for Engineering Applications

Cited by 61 publications

References 12 publications

High density interfaces enhanced microwave absorption in multifunctional carbon nanotubes‐glass fiber‐epoxy composites

High density interfaces enhanced microwave absorption in multifunctional carbon nanotubes‐glass fiber‐epoxy composites

Evaluation of the Mechanical Properties and Drilling of Glass Bead/Fiber-Reinforced Polyamide 66 (PA66)-Based Hybrid Polymer Composites

Structural, electrical, and electromagnetic shielding properties of nanocarbon‐coated glass fiber‐reinforced polypropylene

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