Study of crosslinking efficiency of cotton cellulose
by different physical-chemical methods and genetic
programming
O. Sauperl, and M. Brezocnik. Materials research innovations, 10 (1):
45--62(March 2006)
Abstract
We have investigated the crosslinking effect of
unmercerised and mercerized cotton cellulose
crosslinked with different BTCA mass fractions in the
impregnation bath. Crosslinking efficiency was analysed
using FT-IR spectroscopy, water retention capacity
method, tensiometry and the methylene blue method. On
the basis of the experimental data which was obtained
with the separate physical-chemical methods, different
prediction models for crosslinking efficiency was
developed. Modelling was taken out with the genetic
programming method. Research shows good accordance of
the experimental data with the genetic models.
%0 Journal Article
%1 Sauperl:2006:MRI
%A Sauperl, Olivera
%A Brezocnik, Miran
%D 2006
%J Materials research innovations
%K FT-IR algorithms, blue capacity, cellulose, cotton crosslinking, genetic method, methylene programming, retention spectroscopy, tensiometry, water
%N 1
%P 45--62
%T Study of crosslinking efficiency of cotton cellulose
by different physical-chemical methods and genetic
programming
%U http://www.matrice-technology.com/mri/abstract.php?pid=418
%V 10
%X We have investigated the crosslinking effect of
unmercerised and mercerized cotton cellulose
crosslinked with different BTCA mass fractions in the
impregnation bath. Crosslinking efficiency was analysed
using FT-IR spectroscopy, water retention capacity
method, tensiometry and the methylene blue method. On
the basis of the experimental data which was obtained
with the separate physical-chemical methods, different
prediction models for crosslinking efficiency was
developed. Modelling was taken out with the genetic
programming method. Research shows good accordance of
the experimental data with the genetic models.
@article{Sauperl:2006:MRI,
abstract = {We have investigated the crosslinking effect of
unmercerised and mercerized cotton cellulose
crosslinked with different BTCA mass fractions in the
impregnation bath. Crosslinking efficiency was analysed
using FT-IR spectroscopy, water retention capacity
method, tensiometry and the methylene blue method. On
the basis of the experimental data which was obtained
with the separate physical-chemical methods, different
prediction models for crosslinking efficiency was
developed. Modelling was taken out with the genetic
programming method. Research shows good accordance of
the experimental data with the genetic models.},
added-at = {2008-06-19T17:46:40.000+0200},
author = {Sauperl, Olivera and Brezocnik, Miran},
biburl = {https://www.bibsonomy.org/bibtex/22061c0db70e5858d331b8a9e52bdd50d/brazovayeye},
email = {olivera.sauperl@uni-mb.si},
interhash = {2a004a5af23203b266418cdb791fbb24},
intrahash = {2061c0db70e5858d331b8a9e52bdd50d},
issn = {1433-075X},
journal = {Materials research innovations},
keywords = {FT-IR algorithms, blue capacity, cellulose, cotton crosslinking, genetic method, methylene programming, retention spectroscopy, tensiometry, water},
month = {March},
number = 1,
pages = {45--62},
timestamp = {2008-06-19T17:51:04.000+0200},
title = {Study of crosslinking efficiency of cotton cellulose
by different physical-chemical methods and genetic
programming},
url = {http://www.matrice-technology.com/mri/abstract.php?pid=418},
volume = 10,
year = 2006
}