Enhanced Thermo-Mechanical Properties of Poly(L-lactic acid)/Single-Wall Carbon Nanotube Composites

Abstract: The preparation condition of poly(L-lactic acid) (PLLA)/ single-wall carbon nanotube (SWNT) composite films with highly dispersed SWNTs from solutions was examined and the thermo-mechanical properties of the resultant composite films were evaluated by tensile tests, DSC measurements and dynamic mechanical analyses. The dispersion of SWNTs in PLLA/SWNT composites significantly affected by the solvents used and the polymer concentrations. The PLLA/SWNT composite with the highest dispersion of SWNTs was obtained … Show more

“…Zhang et al found that the hydrophobic functional group (C-CH 3 ) can increase the interaction between PLLA and multi-walled CNTs (MWCNTs). When the MWCNT loading is 14 wt.%, the composite has the maximum conductivity of 0.1 s/cm [18]. On the theoretical side, molecular simulations have been used to study polymer blends, di-block copolymers, and polymer/CNT composites properties [19].…”

Modeling of polyethylene, poly(l-lactide), and CNT composites: a dissipative particle dynamics study

“…Zhang et al found that the hydrophobic functional group (C-CH 3 ) can increase the interaction between PLLA and multi-walled CNTs (MWCNTs). When the MWCNT loading is 14 wt.%, the composite has the maximum conductivity of 0.1 s/cm [18]. On the theoretical side, molecular simulations have been used to study polymer blends, di-block copolymers, and polymer/CNT composites properties [19].…”

Modeling of polyethylene, poly(l-lactide), and CNT composites: a dissipative particle dynamics study