Autor: |
Jalaee, Adel, Trottman, Kai, French, Victoria, Raghunath, Sreenath, Brito dos Santos, Fernanda, Foster, E. Johan |
Předmět: |
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Zdroj: |
Polymer Composites; 10/10/2024, Vol. 45 Issue 14, p12782-12795, 14p |
Abstrakt: |
Material extrusion and injection molding are prevalent in polymer processing, but wood fiber‐reinforced polymer composites offer eco‐friendly alternatives for industries like automotive, and aviation. Our study explores biocomposites using bleached chemi‐thermomechanical pulp (BCTMP) and polypropylene (PP). BCTMP is rich in cellulose and hemicellulose and quite hydrophilic, while PP's hydrophobic structure creates a disconnect to creating a composite of the two. Traditional methods add costly coupling agents like maleic anhydride polypropylene (MAPP) in an attempt to enhance the adhesion properties of wood‐plastic composites. However, it is worth noting that even in the presence of MAPP, PP maintains its high hydrophobicity and low surface energy, despite exhibiting considerable heterogeneity. Further complexity arises from the thermal degradation characteristics of BCTMP during the melting processing of PP. Our proposed method involves premixing via cryo and planetary ball milling. This boosts PP and BCTMP adhesion, enhancing dispersion quality and mechanical properties without needing coupling agents. Moreover, the premixing of BCTMP and PP forms a thermal buffer layer around BCTMP, minimizing its thermal degradation during processing. This process also ensures even distribution of BCTMP into PP, resulting in a 200% rise in Young's modulus with 30 wt% BCTMP without compromising ultimate tensile strength. Highlights: Exploration of biocomposites using bleached chemi‐thermomechanical pulp (BCTMP) and polypropylene (PP) thorough injection moldingImplementation of premixing to enhance PP/BCTMP adhesion without coupling agentsPremixing reduces thermal degradation of BCTMP, enhances dispersion, and improves mechanical propertiesAchieving a 200% increase in Young's modulus with 30% BCTMP incorporation, while maintaining ultimate tensile strength [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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