A Comparison on Biodegradation Behaviour of Polylactic Acid (PLA) Based Blown Films by Incorporating Thermoplasticized Starch (TPS) and Poly (Butylene Succinate-co-Adipate) (PBSA) Biopolymer in Soil

[1] Palai B(2020)Synergistic effect of polylactic acid (PLA) and Poly (butylene succinate-co-adipate)(PBSA) based sustainable, reactive, super toughened eco-composite blown films for flexible packaging applications Polym Testing 83 106130-223

[2] Mohanty S(2019)In situ reactive compatibilization of polylactic acid (PLA) and thermoplastic starch (TPS) blends; synthesis and evaluation of extrusion blown films thereof Ind Crops Prod 141 111748-8501

[3] Nayak SK(2017)New advances in the biodegradation of Poly(lactic) acid Int Biodeterior Biodegrad 117 215-864

[4] Palai B(2010)An overview of the recent developments in polylactide (PLA) research Biores Technol 101 8493-216

[5] Biswal M(2004)An overview of polylactides as packaging materials Macromol Biosci 4 835-225

[6] Mohanty S(2005)Evaluation of oriented poly (lactide) polymers vs. existing PET and oriented PS for fresh food service containers Packag Technol Sci 18 207-8501

[7] Nayak SK(2017)Acceleration of polylactide degradation under biotic and abiotic conditions through utilization of a new, experimental, highly compatible additive Polym Degrad Stab 142 217-2071

[8] Qi X(2010)Biological degradation of plastics: a comprehensive review Bioresource Technol 101 8493-152

[9] Ren Y(2011)Effect of compatibilizing agent on the properties of highly crystalline composites based on poly (lactic acid) and wood flour and/or mica J Polym Environ 19 372-384

[10] Wang X(2013)The influence of biotic and abiotic factors on the rate of degradation of poly(lactic) acid (PLA) coupons buried in compost and soil Polym Degrad Stab 98 2063-1219

[1] Palai B(2020)Synergistic effect of polylactic acid (PLA) and Poly (butylene succinate-co-adipate)(PBSA) based sustainable, reactive, super toughened eco-composite blown films for flexible packaging applications Polym Testing 83 106130-223

[2] Mohanty S(2019)In situ reactive compatibilization of polylactic acid (PLA) and thermoplastic starch (TPS) blends; synthesis and evaluation of extrusion blown films thereof Ind Crops Prod 141 111748-8501

[3] Nayak SK(2017)New advances in the biodegradation of Poly(lactic) acid Int Biodeterior Biodegrad 117 215-864

[4] Palai B(2010)An overview of the recent developments in polylactide (PLA) research Biores Technol 101 8493-216

[5] Biswal M(2004)An overview of polylactides as packaging materials Macromol Biosci 4 835-225

[6] Mohanty S(2005)Evaluation of oriented poly (lactide) polymers vs. existing PET and oriented PS for fresh food service containers Packag Technol Sci 18 207-8501

[7] Nayak SK(2017)Acceleration of polylactide degradation under biotic and abiotic conditions through utilization of a new, experimental, highly compatible additive Polym Degrad Stab 142 217-2071

[8] Qi X(2010)Biological degradation of plastics: a comprehensive review Bioresource Technol 101 8493-152

[9] Ren Y(2011)Effect of compatibilizing agent on the properties of highly crystalline composites based on poly (lactic acid) and wood flour and/or mica J Polym Environ 19 372-384

[10] Wang X(2013)The influence of biotic and abiotic factors on the rate of degradation of poly(lactic) acid (PLA) coupons buried in compost and soil Polym Degrad Stab 98 2063-1219