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Cell structure and mechanical properties of microcellular PLA foams prepared via autoclave constrained foaming

Jinwei Chen, Ling Yang, Dahua Chen, Mai Qunshan, Meigui Wang, Lixuan Wu, Ping Kong

2020Cellular Polymers21 citationsDOI

Abstract

Microcellular polylactic acid (PLA) foams with various cell size and cell morphologies were prepared using supercritical carbon dioxide (sc-CO 2 ) solid-state foaming to investigate the relationship between the cell structure and mechanical properties. Constrained foaming was used and a wide range of cell structures with a constant porosity of ∼75% by tuning saturation pressure (8–24 MPa) was developed. Experiments varying the saturation pressure while holding other variables’ constant show that the mean cell size and the mean cell wall thickness decreased, while the cell density and the open porosity increased with increase of pressure. Tensile modulus of PLA foams decreased with increasing the saturation pressure, but the specific tensile modulus of PLA foams was still 15–80% higher than that of solid PLA. Tensile strength and elongation at break first increased with increasing saturation pressure up to 16 MPa and then decreased with further increasing saturation pressure (20 MPa and 24 MPa) at which opened-cell structure produced. Compressive modulus, compressive strength, and compressive yield stress also followed the same variation trend. The results indicated that not only cell size plays an important role in properties of PLA foams but also cell morphology can influence these properties significantly.

Topics & Concepts

Materials scienceUltimate tensile strengthComposite materialPorositySaturation (graph theory)Foaming agentPolylactic acidCompressive strengthModulusSupercritical fluidElastic modulusElongationPolymerChemistryOrganic chemistryCombinatoricsMathematicsPolymer Foaming and Compositesbiodegradable polymer synthesis and propertiesCarbon dioxide utilization in catalysis
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