Evaluation of mechanical, morphological, and dynamic mechanical properties on basalt/E-glass fiber/epoxy modified with MWCNTs + SiO2 hybrid nanocomposites

Boobalan, V.; Sathish, T.

doi:10.1007/s10965-024-04030-3

J Polym Res

2024

DOI: 10.1007/s10965-024-04030-3

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Evaluation of mechanical, morphological, and dynamic mechanical properties on basalt/E-glass fiber/epoxy modified with MWCNTs + SiO2 hybrid nanocomposites

V. Boobalan,

T. Sathish

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2024

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Cited by 3 publications

References 29 publications

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Evaluation of polylactic acid polymer composites strengthened with chopped vetiver fiber and pearl millet-derived- nano silica towards environmental sustainability

Ashothaman,

Sudha,

Senthilkumar

et al. 2024

J Polym Res

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Evaluation of polylactic acid polymer composites strengthened with chopped vetiver fiber and pearl millet-derived- nano silica towards environmental sustainability

Ashothaman,

Sudha,

Senthilkumar

et al. 2024

J Polym Res

View full text Add to dashboard Cite

Overcoming oxidation and enhancing dispersion of nanoparticles via molten salt: Configurational distribution of TiCnp in pure Mg

Zhang,

Wang,

Turakhodjaevr

et al. 2024

Journal of Magnesium and Alloys

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Enhancing Industrial Safety Helmets: Development and Evaluation of Epoxy-Based Glass and Basalt Fiber Composites

Raja Pandi,

Bihari,

Chokkalingam

et al. 2024

J. Phys.: Conf. Ser.

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Employing personal protective equipment, including helmets for safety, at industrial sites is the ultimate step in averting disasters, and such equipment is commonly recognized the disposable items. Industrial safety helmets employ Polypropylene Terephthalate (PET) or polypropylene (PP) resins is the primary material for shell to efficiently absorb impacts. Additionally, they exhibit a commendable level of heat resistance. Nevertheless, there is currently a lack of active initiatives to develop novel materials using a straightforward fabrication approach. The objective of this work was to enhance safety behaviour of industrial helmets by using epoxy resin as the matrix to develop composite material consisting of glass fiber and basalt fiber in a direct cross-ply arrangement. Subsequently, the performance of this composite material was evaluated in relation to glass and basalt composites, and PET plastic. The samples are produced through compression molding method. The tensile strength (TS), flexural strength (FS), impact strength (IS), and inter laminar shear strength (ILSS), and their heat resistance capabilities are assessed using thermo gravimetric analysis (TGA). The impact energy absorptions of BFRP, BF/GFRP, and GFRP were 6.3, 6.1, and 5.2 times higher than that of PET plastic correspondingly. Superior heat resistance was demonstrated by specimens built of Basalt Fiber Reinforced Polymer (BFRP) and Basalt Fiber/Glass Fiber Reinforced Polymer (BF/GFRP), as compared to the other scenarios. For instance, when compared to PET plastic, BFRP was 24.9 times stronger while BF/GFRP was 12.7 times stronger. The outcomes of this research work are showed that the basalt and glass fiber reinforced composites (BF/GFRP) exhibit the superior impact energy absorption than PET plastic.

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Evaluation of mechanical, morphological, and dynamic mechanical properties on basalt/E-glass fiber/epoxy modified with MWCNTs + SiO2 hybrid nanocomposites

Cited by 3 publications

References 29 publications

Evaluation of polylactic acid polymer composites strengthened with chopped vetiver fiber and pearl millet-derived- nano silica towards environmental sustainability

Evaluation of polylactic acid polymer composites strengthened with chopped vetiver fiber and pearl millet-derived- nano silica towards environmental sustainability

Overcoming oxidation and enhancing dispersion of nanoparticles via molten salt: Configurational distribution of TiCnp in pure Mg

Enhancing Industrial Safety Helmets: Development and Evaluation of Epoxy-Based Glass and Basalt Fiber Composites

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