Microstructural and thermal properties of thermally cured calcined cow bone/kaolin filled hybrid polystyrene composites

Adeniyi, Adewale George; Abdulkareem, Sulyman A.; Odimayomi, Kayode P.; Iwuozor, Kingsley O.; Emenike, Ebuka Chizitere

doi:10.1002/apj.2898

Cited by 11 publications

(1 citation statement)

References 76 publications

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“…The polystyrene was dissolved in gasoline at room temperature following the methodology outlined in prior research, 26 leading to the creation of a dense solvated polystyrene resin, commonly referred to as polystyrene‐based resin (PBR). The density of the PBR has previously been reported as 0.855 g/cm 3 27 .…”

Section: Methodsmentioning

confidence: 99%

Balancing strength and sustainability: Incorporating recycled tyres and pawpaw fibre in polystyrene composites

Adeniyi,

Abdulkareem,

Amoloye

et al. 2024

Asia-Pacific J Chem Eng

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The study presents the development and characterization of rubberized fibrillated polystyrene composites using recycled rubber tires and pawpaw fibres. The composites were prepared by varying the proportions of rubber and fibre. FTIR, SEM, EDX and hardness testing were used to characterize the composites. FTIR spectroscopy revealed distinct peaks, including hydroxyl and amine, but with a notable absence of the O‐H group in nearly all composites, affirming their durability and potential suitability for applications in moist environments. SEM results showed that the introduction of rubber tires did not significantly alter the smooth and fine‐grained nature of the polystyrene resin, whereas the inclusion of pawpaw fibre resulted in an irregular and coarse surface. Mechanical testing demonstrated that the hardness of the composites was dependent on the composition, with rubber‐rich composites being more flexible and pawpaw‐fibre‐rich composites exhibiting greater rigidity.

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Section: Methodsmentioning

confidence: 99%

Balancing strength and sustainability: Incorporating recycled tyres and pawpaw fibre in polystyrene composites

Adeniyi,

Abdulkareem,

Amoloye

et al. 2024

Asia-Pacific J Chem Eng

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Development of green polystyrene composites using Citrus sinensis biochar filler

Adeniyi,

Abdulkareem,

Iwuozor

et al. 2024

Asia-Pacific J Chem Eng

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This research explored the characteristics of polymer composites reinforced with orange peel biochar. The composites were created using the hand lay‐up method with different filler ratios, cured at ambient temperature, and analyzed with various analytical techniques, including scanning electron microscopy (SEM), Fourier transform infrared spectroscopy, and energy dispersive X‐ray spectroscopy (EDX). SEM images showed that roughness increased with higher filler percentages. FTIR analysis detected functional groups like OH, COOH, and aromatic compounds in the composites, primarily inheriting these groups from the resin. Elemental analysis using EDX indicated that the composites contained carbon, oxygen, silicon, aluminum, and potassium. Among these elements, only the carbon concentration demonstrated a linear increase with rising filler levels, with the composite containing 40% biochar achieving the highest carbon content at 84%. Hardness testing showed that the physical strength of the composites increased as the polystyrene resin matrix was reinforced, with the 40% biochar composite exhibiting a maximum hardness value of 296 N. These results indicate that adding biochar not only enhanced the properties of polystyrene‐based composites but also reduced their environmental impact.

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Characterization of groundnut shell biochar produced with different stainless steel combustion compartment volumes

Ayanwusi,

Abdulkareem,

Michael

et al. 2024

Biofuels Bioprod Bioref

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Biochar, a solid material derived from a thermochemical process, has received significant attention due to its usefulness in various sectors. Previous studies have been conducted to improve the properties and quality of this material by altering the thermochemical processes, treating the feedstock, hybridizing the feedstock, and so forth, but little has been done on the effect of varying the reactor's configuration. This research aims to study the effect of varying the stainless‐steel‐based combustion compartment volume of a biomass‐fueled top‐lit updraft gasifier on the groundnut shell biochar. The biochar yields for reactors ranged from 34.9% to 51.2%. The sample produced in the smallest combustion compartment volume showed the highest carbon content, according to energy dispersive X‐ray spectroscopy (EDX) analysis. Potassium, another major element, decreased as the combustion compartment was reduced. Scanning electron microscopy (SEM) analysis revealed that the biochar samples produced had an irregular shape and rough surfaces, and reducing the combustion compartment volume resulted in larger particles on the surface. Fourier transform infrared (FTIR) spectroscopy analysis showed similarities and differences in peaks observed for all the samples. The biochar samples produced can find applications in wastewater treatment, energy conversion and storage, and soil amendment, and the findings contribute to the design and optimization of biomass‐based gasifiers.

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Microstructural and thermal properties of thermally cured calcined cow bone/kaolin filled hybrid polystyrene composites

Cited by 11 publications

References 76 publications

Balancing strength and sustainability: Incorporating recycled tyres and pawpaw fibre in polystyrene composites

Balancing strength and sustainability: Incorporating recycled tyres and pawpaw fibre in polystyrene composites

Development of green polystyrene composites using Citrus sinensis biochar filler

Characterization of groundnut shell biochar produced with different stainless steel combustion compartment volumes

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