Method to reinforce polylactic acid with cellulosenanofibers via a polyhydroxybutyrate carrier system.

Published: 2016

Author(s):

Kizittas, Alper
Nazari, Behzad
Kizittas, Esra.
Gardner D. J.
Han, Yousoo
Rushing, T.

Publication Name: Carbohydrate Polymers

Publication URL: https://pubmed.ncbi.nlm.nih.gov/26876866/

Research Area:

Material Development & Characterization

Keywords:

Composite Materials, Nanocellulose

Abstract:

The elastic moduli of PLA reinforced with 5 and 10wt.% CNF with the carrier, at a frequency (?) of 0.07, were 67% and 415% higher, respectively, than that of neat PLA. The shear viscosity at a shear rate of 0.01 (?0.01) for PLA+10wt.% CNF was 32% higher than that of the neat PLA matrix. The ?0.01 of PLA reinforced with 5wt.% CNF and the PHB carrier was similar to neat PLA. The tensile and flexural moduli of elasticity of the nanocomposites continuously increased with increased CNF loading. The results of the mechanical property measurements are in accordance with the rheological data. The CNF appeared to be better dispersed (less-aggregated nanofibers) in the PLA reinforced with 5wt.% CNF and the PHB carrier. Possible applications for the composites studied in this research are packaging materials, construction materials, and auto parts for interior applications.