Mechanical and bead foaming behavior of PLA-PBAT and PLA-PBSA blends with different morphologies

• Published in: European polymer journal Vol. 90; pp. 231 - 244
• Main Authors: Nofar, M., Tabatabaei, A., Sojoudiasli, H., Park, C.B., Carreau, P.J., Heuzey, M.-C., Kamal, M.R.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.05.2017
• Subjects: Blend; Foaming; Mechanical properties; Morphology; PBAT; PBSA; PLA; PBAT; PLA; PBSA; Blend; Foaming; Morphology; Mechanical properties
• ISSN: 0014-3057; 1873-1945
• DOI: 10.1016/j.eurpolymj.2017.03.031

[Display omitted] •Blends of PLA with different PBAT and PBSA droplet morphology were prepared.•Different Mw PLAs/processing techniques caused different morphologies.•Ductility of blends were affected by droplet size and PLA matrix molecular weight.•Wide-range of microcellular bead foams were obtained from different morphologies. Blends of 75wt% amorphous polylactide (PLA) with 25wt% poly[(butylene adipate)-co-terephthalate] (PBAT) and poly[(butylene succinate)-co-adipate] (PBSA) were prepared. The effects of PLA molecular weight and of two different mixing processes (i.e., internal mixer and twin-screw extruder) on the blend properties were investigated. The crystallization behavior, rheological properties, and morphology of these blends and neat polymers were firstly examined. The tensile properties and bead foaming behavior of the neat and blend systems were then investigated. Various blend morphologies could be obtained by using different molecular weight PLAs as well as different processing techniques. The tensile properties of the blends were significantly affected by the droplet size and PLA matrix molecular weight. Different microcellular bead foam structures ranging from low-density open-cell to high-density closed-cell were manufactured by using blends with different droplet morphologies as well as by using minor phase solid inclusions with different rigidities originated from different crystallization behavior.