Determining the Mechanical Properties of Microcrystalline Cellulose (MCC)-Filled PET-PTT Blend Composites
Published: 2010
Gardner, D. J.
Han, Y.
Yang, H. S.
Publication Name: Wood and Fiber Science
Publication URL: https://wfs.swst.org/index.php/wfs/article/view/1762/1762
Abstract:
Polymer composite materials consisting of poly(ethylene terephthalate) (PET)poly(trimethyleneterephthalate) (PTT) blends and microcrystalline cellulose (MCC) were prepared by injection molding.The composites were analyzed for tensile, flexural, and impact strength as well as density determinations.There was no statistical difference in terms of mechanical properties between the control PETPTT blendand 2.5 wt% MCC-filled composites. Because of better compatibility as well as better stress-transferproperties, the tensile strength of the composites was larger (reaching values from 24.8-36.3 MPa withthe addition of 20 wt% MCC). Elongation at break of the composites was greater (reaching values from2.3-3.3% with the addition of 20 wt% MCC). The tensile modulus of MCC-filled composites systemical-ly increased with increasing MCC loading (reaching values from 1.11-1.68 GPa with the addition of30 wt% MCC). The flexural modulus of composites was higher than the control PETPTT blend. Themodulus also increased with increasing MCC loading (reaching values from 2.10-3.37 GPa with theaddition of 30 wt% MCC). The Izod impact strength of the composites decreased as the MCC loadingincreased and this observation was in good agreement with commonly observed filled polymer systems.