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ID 32012
file
creator
Kozisek, Zdenek
Okada, Kiyoka
Demo, Pavel
NDC
Physics
abstract
Kinetic equations describing temporal evolution of the size distribution of crystalline nuclei of folded chain polyethylene on active centers are solved numerically. Basic characteristics of nucleation processes (the total number of supercritical nuclei and the size distribution of nuclei) are determined and compared with the experimental data. It is shown that even though the total number of supercritical nuclei coincides with the experimental data, the size distribution prediction fails. This is caused by the fact that the total number of nuclei (usually used in analysis of the experimental data), in contrast to the size distribution of nuclei, represents an integral quantity. Using the experimental data of the steady state size distribution of nuclei enables us to determine thermodynamic parameters (especially interfacial energies) of the studied system more precisely and consequently to correct kinetic parameters to get coincidence of kinetic model with the experimental data in both, the total number of supercritical nuclei and also the size distribution of nuclei.
journal title
Journal of Chemical Physics
volume
Volume 134
issue
Issue 11
start page
114904-1
end page
114904-5
date of issued
2011-03-17
publisher
American Institute of Physics
issn
0021-9606
ncid
publisher doi
language
eng
nii type
Journal Article
HU type
Journal Articles
DCMI type
text
format
application/pdf
text version
publisher
rights
Copyright (c) 2011 American Institute of Physics.
relation url
department
Graduate School of Integrated Arts and Sciences



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