Development of coconut fiber-corn cub ash hybrid reinforced polyvinyl chloride composites for shoe sole application

Oladele, Isiaka Oluwole; Olayinka, M.; Adelani, Samson Oluwagbenga; Borode, J. O.

doi:10.1080/15440478.2022.2044426

Cited by 6 publications

(2 citation statements)

References 30 publications

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“…These results suggest that the inclusion of calcite particles played a significant role in augmenting the stiffness of the composite materials. This improvement in tensile characteristics mirrors the findings reported by Nahar et al 30 where the incorporation of natural fibers (jute and bamboo) resulted in increased tensile strength, tensile modulus, and bending modulus in polypropylenebased composites.…”

Section: Tensile Modulussupporting

confidence: 88%

Development of hybrid plantain fiber/calcite particles reinforced polyvinyl chloride biocomposites for automobile applications

Oluwagbenga,

Oluwole,

Ilesanmi

et al. 2023

Journal of Thermoplastic Composite Materials

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This study aimed to develop environmentally friendly PVC composites for automotive by incorporating plantain fiber (PF) and calcite particles (CP) as reinforcements. Different weight percentages of PF and CP (ranging from 3% to 15%) were utilized. The mixtures underwent compounding and compression molding at 150°C for 10 min. The mechanical and thermal properties of the resulting composites were analyzed, and their fracture surfaces were examined using SEM. Results indicated that the inclusion of these reinforcements significantly enhanced the properties of the composites compared to unreinforced samples, with the hybrid composites exhibiting the best performance. Optimal compositions were identified within the range of 6-8 wt% PF and 3-4 wt% CP. The composite containing 6 wt% PF/3 wt% CP showcased the highest ultimate tensile strength (63.77 MPa), optimum elongation at break, and best insulating property (0.24 W/Mk). The composite with 8 wt% PF/4 wt% CP demonstrated the highest tensile modulus (4.79 GPa), flexural strength (91.35 MPa), and flexural modulus (8.2 GPa). Impact strength peaked at 10 wt% PF/5 wt% CP, reaching 107.02 J/m2. These findings indicate that the developed hybrid reinforced biocomposite compositions hold great promise for various automotive applications, including instrument panels, sun visors, headlining, seals, floor coverings, and protective strips

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Section: Tensile Modulussupporting

confidence: 88%

Development of hybrid plantain fiber/calcite particles reinforced polyvinyl chloride biocomposites for automobile applications

Oluwagbenga,

Oluwole,

Ilesanmi

et al. 2023

Journal of Thermoplastic Composite Materials

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“…Several applications are being developed to make use of discarded animal bones, in the field of biomedical engineering; animal bones have been used as reinforcement and binding agents for different composite applications such as polyesters, epoxies etc. [2][3]. The potentials of pulverized animal bones as pozzolanic material was also established by Falade et al [4] and was found to exhibit good pozzolan character.…”

Section: Introductionmentioning

confidence: 78%

Modeling and Simulation of Mechanical Properties of Pulverized Cow Bone and Lateritic Paving Tiles

Omoniyi

Aweda

Ohijeagbon

et al. 2020

CEJ

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This study included the experimental production and investigation of the mechanicalproperties of paving tiles produced from a mixture of laterite, silica sand, pulverized cow bones,and cement. Empirical models of compressive and flexural strength were also developed andherein presented for the paving tiles. The maximum compressive strength of the paving tiles wereobtained for 20, 15, and 10% cement content as 5.05, 5.05 and 3.08 MPa, while the maximumflexural strength for similar values of cement content were obtained as 1.83, 1.21 and 0.26 MParespectively. The results indicate that there was no noticeable difference in the values of thecompressive strength at 20 and 15% cement content, while a sharp reduction of the mechanicalproperties was experienced as the cement content reduces from 15 to 10%. Recommendedcomposition for paving tiles with pulverized cow bones composite is cement, 15%; pulverized cowbones, 30%; laterite 35% and silica sand, 20% respectively. Sustainable production of paving tilesand a sustainable environment can, therefore, be enhanced by replacing granite constituent withwaste cow bones, which can easily be replicated by the empirical models herein developed.

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Interface Modification and Characterization of PVC Based Composites and Nanocomposites

Vandeginste,

Madhav

2023

Engineering Materials

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Development of coconut fiber-corn cub ash hybrid reinforced polyvinyl chloride composites for shoe sole application

Cited by 6 publications

References 30 publications

Development of hybrid plantain fiber/calcite particles reinforced polyvinyl chloride biocomposites for automobile applications

Development of hybrid plantain fiber/calcite particles reinforced polyvinyl chloride biocomposites for automobile applications

Modeling and Simulation of Mechanical Properties of Pulverized Cow Bone and Lateritic Paving Tiles

Interface Modification and Characterization of PVC Based Composites and Nanocomposites

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