MnSt₂-kaolin-polyethylene film: An eco-friendly polyethylene composite film and its thermo- and biodegradable research

Abstract: A novel thermo‐ and biodegradable MnSt2–kaolin–polyethylene (signed as MKPE) composite film was prepared through a melt blending technique. Manganese stearate and common kaolin were employed as thermo‐degradable additives and biodegradable promoter to improve the degradable efficiency of the waste PE. Thermo‐oxidative testing was carried out in an air oven maintained at 70°C simulating a compost temperature. The biodegradation of the aging films was also investigated by analysis of evolved carbon dioxide of fi… Show more

“…The degradation of the polyethylene process mainly attributes to the oxygen in the atmosphere. In this process, macromolecule free radicals quickly react with oxygen and show a tendency to grow . Therefore, the main role of antioxidants is to prevent the formation of macromolecule free radicals, and therefore to enhance the durability of materials.…”

Enhanced UV resistance of solar cooling high density polyethylene/titanium dioxide composites for long outdoor life via synergy effect of UV absorber and antioxidant

“…The degradation of the polyethylene process mainly attributes to the oxygen in the atmosphere. In this process, macromolecule free radicals quickly react with oxygen and show a tendency to grow . Therefore, the main role of antioxidants is to prevent the formation of macromolecule free radicals, and therefore to enhance the durability of materials.…”

Enhanced UV resistance of solar cooling high density polyethylene/titanium dioxide composites for long outdoor life via synergy effect of UV absorber and antioxidant

Performance of photo-degradation and thermo-degradation of polyethylene with photo-catalysts and thermo-oxidant additives