Response of extreme environmental aging on the novel <scp><i>Moringa stenopetala</i></scp> husk fiber/epoxy composites: Understanding the characteristics and thermokinetic behavior

Mishra, Kajal; Sinha, Shishir

doi:10.1002/pc.27248

Cited by 3 publications

(1 citation statement)

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“…14 Their investigations concluded that 15 wt.% of cellulose particulates from pod waste of Moringa oleifera fruit reinforcement in epoxy bio-composite maximizes its mechanical properties. The ground dried leaves of Moringa oleifera were used as reinforcement filler in epoxy composite by Kajal et al 15 They adopted the hand layup technique to fabricate the composites and their findings conclude the optimum wt.% of ground dried leaves of Moringa oleifera in the polymer composite as 20 wt.%. The optimum loading of ground dried leaves of Moringa oleifera in the polymer composite maximized its water absorption and mechanical characteristics.…”

Section: Introductionmentioning

confidence: 99%

Effect of alkali-treated Moringa oleifera fruit husk fibre/SiC nanoparticle reinforced polymer composites

Saravanakumar¹,

Karuppuswamy²,

Binoj

2023

Proceedings of the Institution of Mechanical Engineers, Part E:

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Composite industries use natural fibre as a sustainable resource to improve the sustainability and eco-friendliness of polymer composites. The characterization of alkali-treated Moringa oleifera fruit husk fibres (AMOFHFs) reinforced in unsaturated polyester resin matrix with varying weight percent of nano-sized silicon carbide (SiC) particles as filler material is presented in this paper. The AMOFHFs reinforced composite (AMOFHFC) specimens contain 20 wt.% AMOFHFs and nano-sized SiC particles ranging from 1 to 5 wt.% in 1 wt.% steps. The effect of wt.% variation in nano-sized SiC particles on the mechanical, morphological, tribological and water absorption behaviour of AMOFHFC specimens was thoroughly investigated. According to the findings, the AMOFHFC specimen with 4 wt.% nano-sized SiC particles as filler material has the best mechanical, tribological and water absorption properties. The hardness, tensile, flexural and impact strength of the AMOFHFC specimen with 4 wt.% nano-sized SiC particles improved by 14.86%, 23.11%, 9.6% and 23.22% respectively compared to the composite specimen without SiC nanoparticles as filler material. Similarly, the AMOFHFC specimen with 4 wt.% nano-sized SiC particles exhibited a lesser weight loss of 96.7% compared to the composite specimen without SiC nanoparticles as filler material during the Pin-on-disk experimentation which showcases its superior tribological characteristics. Furthermore, SEM images of fractured tensile AMOFHFC specimens aided in understanding the bonding nature of the AMOFHFs, SiC nanoparticles and unsaturated polyester resin matrix in the composite specimens. The findings above led us to the conclusion that AMOFHFCs with acceptable hydrophobic nature are best suited for light weight automotive and structural applications.

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Section: Introductionmentioning

confidence: 99%

Effect of alkali-treated Moringa oleifera fruit husk fibre/SiC nanoparticle reinforced polymer composites

Saravanakumar¹,

Karuppuswamy²,

Binoj

2023

Proceedings of the Institution of Mechanical Engineers, Part E:

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Impact of ultraviolet aging on the composition and characteristics of multifunctional composite coatings

Wang,

Liu,

Yin

et al. 2024

Polymer Composites

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Multifunctional composite coatings exposed to environmental conditions are prone to aging and potential functional failure due to ultraviolet (UV) radiation. This study investigates the impact of UV radiation on the structure and properties of low infrared emissivity composite coatings, comprising ethylene propylene diene monomer (EPDM) as the matrix and antistatic carbon fiber (CF) and flaky floating aluminum powder as fillers. In addition to analyzing the photochemical degradation reactions of the composite coating under UV irradiation, the role of fillers in resisting UV aging is elucidated. The performance parameters examined include infrared (IR) emissivity, surface resistivity, mechanical properties, and dielectric properties. The results indicate that after UV aging, EPDM undergoes the most significant changes, leading to the formation of carbonyl groups. CFs experience mild UV aging and an increase in resistivity. Aluminum powder, on the other hand, remains largely unchanged after UV aging and its addition significantly reduces the UV aging rate of the composite coating, resulting in a low IR emissivity of as low as 0.2 after UV aging. Among them, Coating 4 exhibits the best overall performance after UV aging.Highlights The UV aging mechanism of EPDM and the role of fillers were revealed. The UV aging of the coating significantly reduced the infrared emissivity (Reduced from 0.5 to 0.2). Al powder effectively reduced the UV degradation rate of the coating by reflecting UV light. The properties of the double‐formulated coating perform best after UV aging.

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Reduced GO decorated waste Moringa oleifera fiber composite for sustainable electromagnetic shielding material

Nath,

Samantara,

Barik

2024

Preprint

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The advent of the ultra-first digital system marked a transformative era in technology, particularly in monitoring natural phenomena through electromagnetic waves. For safeguard of the electronic instruments and mitigate electromagnetic interference, the utilization of electromagnetic absorbing materials has emerged as a crucial solution. In this context, the Moringa Oleifera fiber (MOF) which is exploded away as a waste material has the potential to disseminate the intensity of high intense electromagnetic wave plays a crucial role in presence of reduced graphene oxide (rGO) with epoxy as (rGO/MOF/EPOX) composite stand out as a promising approach. When incorporated into an epoxy matrix, MOF form a synergistic blend that not only provides electromagnetic shielding but also offers mechanical strength and stability. The change of complex permittivity of the material from 3.2 to 3.35 with 1wt% of rGO, produces a remarkable reflection loss along with increase of absorption efficiency from 68.38 % to 87.41%.The morphology of rGO/MOF/EPOX composite are analyzed through SEM which supports the ability of the composite to be a good electromagnetic shielding material. The physical, mechanical and thermal property MOF/EPOX composite has been evaluated in presence of rGO and discussed with correlation of dielectric properties of the material.

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Response of extreme environmental aging on the novel Moringa stenopetala husk fiber/epoxy composites: Understanding the characteristics and thermokinetic behavior

Cited by 3 publications

References 139 publications

Effect of alkali-treated Moringa oleifera fruit husk fibre/SiC nanoparticle reinforced polymer composites

Effect of alkali-treated Moringa oleifera fruit husk fibre/SiC nanoparticle reinforced polymer composites

Impact of ultraviolet aging on the composition and characteristics of multifunctional composite coatings

Reduced GO decorated waste Moringa oleifera fiber composite for sustainable electromagnetic shielding material

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