Joseph Nwosu scite author profile

Thermosets and composites were fabricated from the epoxides of norbornane seed oils (linseed oil, soybean oil, high-oleic soybean oil, and non-modified seed oils). The epoxides were cured using a cationic initiator to mold thermosets. Thermosets were characterized for their curing behavior and T g by dynamic scanning calorimetry, crosslinking efficiency by Soxhlet extraction, and thermal stability by thermogravimetric analysis (TGA). Steric hindrance of the norbornylized seed oils had a perturbing effect on the extent of epoxidation. However, the higher ring strain energy of the norbornene moieties played a key role in epoxide curing, resulting in higher T g thermosets with higher crosslinking efficiency. To the epoxide system with the highest optimum balance of T g, crosslinking efficiency, and thermal stability, lignocellulosic sorghum-derived biomass fillers were added. The addition of biomass fillers increased the bio-based content and reduced the cost and weight of the composites. Further, torrefied and carbonized sorghum filler variants were used to study the effect of the extent of thermal treatment on curing and on the final thermoset properties. Fillers were characterized by TGA, IR, elemental analysis, and solid-state NMR. Glass fiber-reinforced composites were molded using the optimum formulation. The mechanical and thermal properties of the novel hybrid biocomposites were investigated using universal testing machine (UTM), impact tester, and TGA. Both the sorghum-filled thermosets and composites showed enhanced thermomechanical property as compared to the non-filled epoxy systems. Carbonized sorghum filler composites exhibited the highest mechanical properties and thermal stability. Elemental differences and biomass precursor differences such as the cellulose, hemicellulose, and lignin content were found to play a critical role toward the composite properties. The SEM images showed good interfacial adhesion between the polymer matrix, fillers, and fiber phase in the biomass-filled composites. Thus, the fabricated composites demonstrate the potential for being used as sustainable, greener, and lightweight composites.

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Acid-Cured Norbornylized Seed Oil Epoxides for Sustainable, Recyclable, and Reprocessable Thermosets and Composite Application

Thomas

Nwosu

Soucek

2023

ACS Appl. Polym. Mater.

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Reprocessable and recyclable thermosets were produced from the epoxidized norbornene seed oils (soybean oil and linseed oil). The epoxides were copolymerized using disulfidebased aromatic carboxylic acid to mold thermosets and composites. Both the neat and reprocessed thermosets were characterized for cross-linking efficiency by dynamic mechanical analysis (DMA), Soxhlet extraction, and swelling tests; for thermal stability by thermogravimetric analysis (TGA); and for T g by differential scanning calorimetry (DSC). Mechanical properties of the thermosets were also investigated. Further, carbonized biomass sorghum fillers were added into the system to assess their effect on the final properties. Increased bio-based content, cost, and weight savings were introduced into the system by virtue of biomass filler addition. Lastly, glass-fiber-reinforced composites were molded, and their mechanical and thermal properties were evaluated using an impact tester and a universal testing machine (UTM) and by DMA and TGA, respectively. It was noticed that higher seed oil functionalization resulted in higher the reactivity and final performance properties like cross-linking density, thermal stability, and tensile modulus. Nonfilled epoxy systems in comparison to the sorghum-filled thermosets and composites showed enhanced thermomechanical properties. Chemical recycling and reprocessing abilities of these highly bio-based materials were also investigated. The research thus demonstrates the systems' possible use in environmentally friendly, sustainable, and lightweight composites.

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Sustainable biobased composites from norbornylized linseed oil and biomass sorghum fillers

Thomas

Nwosu

Soucek

2023

Composites Communications

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Joseph Nwosu

Sustainable Thermosets and Composites Based on the Epoxides of Norbornylized Seed Oils and Biomass Fillers

Acid-Cured Norbornylized Seed Oil Epoxides for Sustainable, Recyclable, and Reprocessable Thermosets and Composite Application

Sustainable biobased composites from norbornylized linseed oil and biomass sorghum fillers

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