Affiliation:
1. Yunnan Provincial Key Laboratory of Energy Saving in Phosphorus Chemical Engineering and New Phosphorus Materials The Higher Educational Key Laboratory for Phosphorus Chemical Engineering of Yunnan Province Faculty of Chemical Engineering Kunming University of Science and Technology Kunming Yunnan China
2. Engineering Research Center of Biodegradable Polymers Department of Education of Yunnan Province Kunming Yunnan China
3. The International Joint Laboratory for Sustainable Polymers of Yunnan Province Department of Science and Technology of Yunnan Province Kunming Yunnan China
Abstract
AbstractPolylactide (PLA) was melt blended with low amounts of poly (butylene adipate‐co‐terephthalate) (PBAT) using a simple reactive extrusion process herein, aiming to address the inherent brittleness of PLA without significantly compromising its stiffness. PLA/PBAT (90/10) blends with a small amount of peroxide (0.02 phr) and a second crosslinker agent triallyl isocyanurate (TAIC) were produced to explore the structure‐performance relationship evolution in reactive extrusion. The results showed that the PLA blend with an appropriate amount of TAIC (i.e., 0.3 phr) exhibited a remarkable increase in elongation at break, reaching as high as 96%. The sample with high elongation also demonstrated a high stiffness, boasting a Young's modulus of 2.4 GPa and a yield strength of 43 MPa. It was evident that the combination of enhanced compatibility and optimized homogeneous PBAT phase size of approximately 0.6 μm worked synergistically to enhance the toughness of PLA. Conversely, higher TAIC contents resulted in over‐crosslinking, despite considerable improvements in compatibility. This study offers a versatile, scalable, and practical method to prepare fully biodegradable PLA blends with high toughness.
Funder
National Natural Science Foundation of China
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