Tamami Yamada scite author profile

Blended films of poly(L-lactide) [ie poly(L-lactic acid)] (PLLA) and poly(ε ε ε ε ε ε-caprolactone) (PCL) without or mixed with 10 wt% poly(L-lactide-co-ε ε ε ε ε ε-caprolactone) (PLLA-CL) were prepared by solution-casting. The effects of PLLA-CL on the morphology, phase structure, crystallization, and mechanical properties of films have been investigated using polarization optical microscopy, scanning electron microscopy, differential scanning calorimetry and tensile testing. Addition of PLLA-CL decreased number densities of spherulites in PLLA and PCL films, and improved the observability of spherulites and the smoothness of cross-section of the PLLA/PCL blend film. The melting temperatures (T m ) of PLLA and PCL in the films remained unchanged upon addition of PLLA-CL, while the crystallinities of PLLA and PCL increased at PLLA contents [X PLLA = weight of PLLA/(weight of PLLA and PCL)] of 0.4-0.7 and at most of the X PLLA values, respectively. The addition of PLLA-CL improved the tensile strength and the Young modulus of the films at X PLLA of 0.5-0.8 and of 0-0.1 and 0.5-0.8, respectively, and the elongation at break of the films at all the X PLLA values. These findings strongly suggest that PLLA-CL was miscible with PLLA and PCL, and that the dissolved PLLA-CL in PLLA-rich and PCL-rich phases increased the compatibility between these two phases.

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Blends of aliphatic polyesters. VIII. Effects of poly(L‐lactide‐co‐ε‐caprolactone) on enzymatic hydrolysis of poly(L‐lactide), poly(ε‐caprolactone), and their blend films

Tsuji

Yamada

2002

J of Applied Polymer Sci

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Poly(l-lactide), that is, poly(l-lactic acid) (PLLA), poly(-caprolactone) (PCL), and their blend (50/50) films containing different amounts of poly(l-lactide-co--caprolactone) (PLLA-CL), were prepared by solution casting. The effects of added PLLA-CL on the enzymatic hydrolysis of the films were investigated in the presence of proteinase K and Rhizopus arrhizus lipase by use of gravimetry. The addition of PLLA-CL decreased the proteinase K-catalyzed hydrolyzabilities of the PLLA and PLLA/PCL (50/50) films as well as the Rhizopus arrhizus lipase-catalyzed hydrolyzability of the PCL and PLLA/PCL (50/50) films. The decreased enzymatic hydrolyzabilities of the PLLA and PCL films upon addition of PLLA-CL are attributable to the fact that the PLLA-CL is miscible with PLLA and PCL and the dissolved PLLA-CL must disturb the adsorption and/or scission processes of the enzymes. In addition to this effect, the decreased enzymatic hydrolyzabilities of the PLLA/PCL (50/50) films upon addition of PLLA-CL can be explained by the enhanced compatibility between the PLLA-rich and PCL-rich phases arising from the dissolved PLLA-CL. These effects result in decreased hydrolyzable interfacial area for PLLA/PCL films. The decrement in proteinase K-catalyzed hydrolyzability of the PLLA film upon addition of PLLA-CL, which is miscible with PLLA, was in marked contrast with the enhanced proteinase K-catalyzed hydrolyzability of the PLLA film upon addition of PCL, which is immiscible with PLLA. This confirms that the miscibility of the second polymer is crucial to determine the proteinase K-catalyzed hydrolyzabilities of the PLLA-based blend films.

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Tamami Yamada

Part 7. Effects of poly(L‐lactide‐co‐ϵ‐caprolactone) on morphology, structure, crystallization, and physical properties of blends of poly(L‐lactide) and poly(ϵ‐caprolactone)

Blends of aliphatic polyesters. VIII. Effects of poly(L‐lactide‐co‐ε‐caprolactone) on enzymatic hydrolysis of poly(L‐lactide), poly(ε‐caprolactone), and their blend films

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