Effect of organically modified montmorillonite (OMMT) on biodegradation of PS:PLA and PS:PLA:OMMT using Phanerochaete chrysosporium

Abstract: The environmental issues of synthetic polymers have been resolved using biodegradation under controlled conditions. The degradation study of polymeric composites of (a) polystyrene (PS) and poly(lactic acid) (PLA) (PS:PLA), and (b) PS:PLA filled with organically modified montmorillonite (OMMT) (PS:PLA:OMMT) was carried out using Phanerochaete chrysosporium. PLA was synthesized using L-lactic acid under controlled ultrasound cavitation technique, dried and added to a solution of PS. Surface of montmorillonite (… Show more

“…However, the ordinary tensile properties have been the target for improvement in previous works where carbon nanofiller , graphene , polycarbonate , and calcium carbonate were used as to strengthen the UHMWPE matrix. In the past decades, montmorillonite (MMT) was usually used by various methods to improve the properties of polymers due to its mechanical performances , hardness , degradability , and dielectric property . The improvement depended on the effective dispersion of MMT layers which exhibited the exfoliation of MMT layers into individual platelets.…”

UHMWPE/organoclay nanocomposites fabricated by melt intercalation under continuous elongational flow: Dispersion, thermal behaviors and mechanical properties

“…However, the ordinary tensile properties have been the target for improvement in previous works where carbon nanofiller , graphene , polycarbonate , and calcium carbonate were used as to strengthen the UHMWPE matrix. In the past decades, montmorillonite (MMT) was usually used by various methods to improve the properties of polymers due to its mechanical performances , hardness , degradability , and dielectric property . The improvement depended on the effective dispersion of MMT layers which exhibited the exfoliation of MMT layers into individual platelets.…”

UHMWPE/organoclay nanocomposites fabricated by melt intercalation under continuous elongational flow: Dispersion, thermal behaviors and mechanical properties

TiO2/polystyrene core–shell nanoparticles as fillers for LLDPE/PLA blend: development, and morphological, thermal and mechanical properties

Preparation of polyamide-imide:ZnO nanocomposites (PAI:ZnO nanocomposites): its characterization, limiting oxygen index, and antibacterial investigation