TY - JOUR
T1 - Novel biobased textile fiber from colombian agro-industrialwaste fiber
AU - Amaya Vergara, Maria Camila
AU - Cortés Gómez, Melissa Paola
AU - Restrepo Restrepo, Maria Clara
AU - Manrique Henao, Jorge
AU - Pereira Soto, Miguel Angel
AU - Gañán Rojo, Piedad Felisinda
AU - Castro Herazo, Cristina Isabel
AU - Zuluaga Gallego, Robin
N1 - Publisher Copyright:
© 2018 by the authors.
PY - 2018/10/15
Y1 - 2018/10/15
N2 - Fique fibers, native to Colombia, are traditionally used for ropes and bags. In the extraction of long fibers for these purposes, the same amount of short fibers is generated; the short fibers are then discarded in the soil or in landfills. This agro-industrial waste is cellulose-rich and can be potentially developed into new biobased products. As an alternative use for these fibers, viscose regenerated fibers with potential applications in the textile industry were developed. Fique waste fibers were pulped (to produce fique cellulose pulp, FCP) using a 33 design of experiment (DOE) to adjust the variables of the whitening treatment, and DOE analysis showed that time and hydrogen peroxide concentration do not have a significant effect on non-cellulosic remotion, unlike temperature. The behavior of this pulp in the production of viscose was compared against that of commercially available wood cellulose pulp (WCP). FCP showed a suitable cellulose content with a high degree of polymerization, which makes it a viable pulp for producing discontinuous viscose rayon filaments. Both pulps showed the same performance in the production of the viscose dope and the same chemical, thermal, and mechanical behavior after being regenerated.
AB - Fique fibers, native to Colombia, are traditionally used for ropes and bags. In the extraction of long fibers for these purposes, the same amount of short fibers is generated; the short fibers are then discarded in the soil or in landfills. This agro-industrial waste is cellulose-rich and can be potentially developed into new biobased products. As an alternative use for these fibers, viscose regenerated fibers with potential applications in the textile industry were developed. Fique waste fibers were pulped (to produce fique cellulose pulp, FCP) using a 33 design of experiment (DOE) to adjust the variables of the whitening treatment, and DOE analysis showed that time and hydrogen peroxide concentration do not have a significant effect on non-cellulosic remotion, unlike temperature. The behavior of this pulp in the production of viscose was compared against that of commercially available wood cellulose pulp (WCP). FCP showed a suitable cellulose content with a high degree of polymerization, which makes it a viable pulp for producing discontinuous viscose rayon filaments. Both pulps showed the same performance in the production of the viscose dope and the same chemical, thermal, and mechanical behavior after being regenerated.
KW - Agro-industrial wastes
KW - Biobased polymers
KW - Cellulose pulp
KW - Fique
KW - Viscose rayon
KW - regenerated cellulose
KW - Regenerated cellulose
KW - Viscose rayon
KW - Biobased polymers
KW - Fique
KW - Agro-industrial wastes
KW - Cellulose pulp
UR - http://www.scopus.com/inward/record.url?scp=85055080777&partnerID=8YFLogxK
U2 - 10.3390/molecules23102640
DO - 10.3390/molecules23102640
M3 - Artículo en revista científica indexada
C2 - 30326560
AN - SCOPUS:85055080777
SN - 1420-3049
VL - 23
JO - Molecules
JF - Molecules
IS - 10
M1 - 2640
ER -