Oligo-E-caprolactones(e-CL) have been utilized as principle secondary components Within poly(lactic acid)[PLA]-based blends as well as additives within larger- sized PCLPLA blends m an effort to fully complement the mechanical attributes of the respective polyesters. Dynamic mechanical thermal analysis(DMTA) shows that the presence of e-CL plasticizes the PLA non-crystalline phase with a more pronounced effect seen as the size of 0-CL is reduced. Moreover, it appears that the size of 0-CL could also affect the static mechanical properties of the ternary systems as material mess and strength reside between those properties measured for high molecular weight PCLPLA bmary blends and the PLA homopolyester. Future work will examine the ability of these blends to sustain these properties during hydrolytic exposure.
Binary and ternary poly(lactic acid)/poly (e-caprolactone) blends: the effects of oligo-e-caprolactone upon mechanical properties
Borzacchiello Assunta;
1998
Abstract
Oligo-E-caprolactones(e-CL) have been utilized as principle secondary components Within poly(lactic acid)[PLA]-based blends as well as additives within larger- sized PCLPLA blends m an effort to fully complement the mechanical attributes of the respective polyesters. Dynamic mechanical thermal analysis(DMTA) shows that the presence of e-CL plasticizes the PLA non-crystalline phase with a more pronounced effect seen as the size of 0-CL is reduced. Moreover, it appears that the size of 0-CL could also affect the static mechanical properties of the ternary systems as material mess and strength reside between those properties measured for high molecular weight PCLPLA bmary blends and the PLA homopolyester. Future work will examine the ability of these blends to sustain these properties during hydrolytic exposure.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
