In this work poly(lactic) acid (PLA)/poly(butylene succinate-co-adipate) (PBSA) biobased binary blends were investigated. PLA/PBSA mixtures with different compositions of PBSA (from 15 up to 40 wt.%) were produced by twin screw-extrusion. A first screening study was performed on these blends that were characterized from the melt fluidity, morphological and thermo-mechanical point of view. Starting from the obtained results, the effect of an epoxy oligomer (EO) (added at 2 wt.%) was further investigated. In this case a novel approach was introduced studying the micromechanical deformation processes by dilatometric uniaxial tensile tests, carried out with a videoextensometer. The characterization was then completed adopting the elasto-plastic fracture approach, by the measurement of the capability of the selected blends to absorb energy at a slow rate. The obtained results showed that EO acts as a good compatibilizer, improving the compatibility of the rubber phase into the PLA matrix. Dilatometric results showed different micromechanical responses for the 80-20 and 60-40 blends (probably linked to the different morphology). The 80-20 showed a cavitational behavior while the 60-40 a deviatoric one. It has been observed that while the addition of EO does not alter the micromechanical response of the 60-40 blend, it profoundly changes the response of the 80-20, that passed to a deviatoric behavior with the EO addition.
Keywords: binary blends; mechanical tests; micromechanical analysis; poly(butylene succinate-co-adipate) (PBSA); poly(lactic) acid (PLA).