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Development of green composites from bio‐benzoxazine and epoxy copolymer reinforced with alkali‐treated pine nut shell particles

Athar Ali Khan Gorar, Guo Zhiyi, Zhicheng Wang, Abbas Daham, Jun Wang, Jun Wang, Wenbin Liu, Junyi Wang, Junyi Wang, Mehdi Derradji

2023Polymers for Advanced Technologies13 citationsDOI

Abstract

Abstract In the current study, an isothermal compression molding process was used to develop enhanced green composites made from alkali‐treated pine nut shell particles (TPS) reinforced in fully bio‐driven benzoxazine (VB) and epoxy (EP) copolymer. Reinforcement with varying weight percent (wt%) of bio‐filler enhanced the properties of composites. Composites showed a rise of 75.9 MPa, 5.8 GPa, and 5.1 kJ/m 2 in flexural strength, modulus, and impact strength, respectively. Thermal stability shows that composites can endure higher temperatures and hence be classified as flame‐retardant materials. The dynamic mechanical analysis (DMA) confirms that composites exhibit higher storage modulus, which was elevated to 77.6% compared to the unfilled copolymer. FTIR spectroscopy analyzed the structure of copolymerized composites. Further, finite element analysis (FEA) was observed for the prepared composites. A transversely isotropic composite material model was created with the properties of composites, and stress analysis was observed. FEA outcomes are in good agreement with experimental findings.

Topics & Concepts

Materials scienceComposite materialEpoxyFlexural strengthDynamic mechanical analysisCompression moldingThermal stabilityCopolymerComposite numberFlexural modulusPolymerMoldQuantum mechanicsPhysicsEpoxy Resin Curing ProcessesSynthesis and properties of polymersPolymer Nanocomposites and Properties
Development of green composites from bio‐benzoxazine and epoxy copolymer reinforced with alkali‐treated pine nut shell particles | Litcius