Publication result detail
Molecular weight scaling of the spherulite growth rate in isothermally melt crystallized polyethylene nanocomposites
JANČÁŘ, J.; FIORE, K.
Original Title
Molecular weight scaling of the spherulite growth rate in isothermally melt crystallized polyethylene nanocomposites
English Title
Molecular weight scaling of the spherulite growth rate in isothermally melt crystallized polyethylene nanocomposites
Type
WoS Article
Original Abstract
Molecular weight scaling of the spherulite growth rate was investigated for a range of monodisperse PE filled with fumed silica. retarded chain reptation and bimodal distribution of chain mobility were identified as the maincauses for the observed dramatic decrease of the growth rate with adding silica nanoparticles
English abstract
Molecular weight scaling of the spherulite growth rate was investigated for a range of monodisperse PE filled with fumed silica. retarded chain reptation and bimodal distribution of chain mobility were identified as the maincauses for the observed dramatic decrease of the growth rate with adding silica nanoparticles
Keywords
crystallization kinetics, reptation, percolation, Lauritzen-Hofmann model, molecular weight scaling, nanocomposite
Key words in English
crystallization kinetics, reptation, percolation, Lauritzen-Hofmann model, molecular weight scaling, nanocomposite
Authors
JANČÁŘ, J.; FIORE, K.
RIV year
2012
Released
21.11.2011
Publisher
Elsevier
Location
NL
ISBN
0032-3861
Periodical
POLYMER
Volume
52
Number
10
State
United Kingdom of Great Britain and Northern Ireland
Pages from
5851
Pages to
5857
Pages count
7
BibTex
@article{BUT90070,
author="Josef {Jančář} and Kateřina {Fiore}",
title="Molecular weight scaling of the spherulite growth rate in isothermally melt crystallized polyethylene nanocomposites",
journal="POLYMER",
year="2011",
volume="52",
number="10",
pages="5851--5857",
doi="10.1016/j.polymer.2011.10.026",
issn="0032-3861"
}