Title : ( Enhanced rate of formation of trigonal phase in blends of homogeneous isotactic propylene-1-hexene copolymers )
Authors: Hamed Janani , Rufina Alamo ,Access to full-text not allowed by authors
Abstract
Blends of a miscible pair of propylene-1ehexene (PH) copolymers with 11 and 21 mol% of 1-hexene have been studied in reference to their polymorphic behavior, lamellar structure and crystallization kinetics using in situ WAXD, DSC and AFM. As pure components, PH21 crystallizes in a trigonal packing in the whole range of undercooling while PH11 develops monoclinic crystallites at low undercooling or the mesomorphic form at high undercooling. In the blends, the level of overall crystallinity obtained from WAXS increases from 17 to 25% and scales directly with increasing content of PH21. Due to differences in crystallization kinetics, two separate populations of crystallites develop in the blends, each of a different polymorph. As expected, the content of trigonal phase decreases with increasing PH11, however, the rate of formation of trigonal phase in the whole range of undercooling increases with addition of PH11, which as a pure component does not form trigonal phase. This unexpected enhanced kinetics of formation of trigonal phase with blending is attributed to the increasing composition of 1-hexene in the melt during evolution of the monoclinic phase in the first stage of isothermal crystallization of the blends.
Keywords
, Propylene copolymers Crystallization propylene Propylene, 1ehexene copolymers@article{paperid:1089076,
author = {Janani, Hamed and Rufina Alamo},
title = {Enhanced rate of formation of trigonal phase in blends of homogeneous isotactic propylene-1-hexene copolymers},
journal = {Polymer},
year = {2015},
volume = {64},
month = {May},
issn = {0032-3861},
pages = {163--175},
numpages = {12},
keywords = {Propylene copolymers Crystallization propylene Propylene-1ehexene copolymers},
}
%0 Journal Article
%T Enhanced rate of formation of trigonal phase in blends of homogeneous isotactic propylene-1-hexene copolymers
%A Janani, Hamed
%A Rufina Alamo
%J Polymer
%@ 0032-3861
%D 2015