The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell Fibers

The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell Fibers

This research examines the possibilities of regulating the structure of cellulose precursor fibers spun from solutions in <i>N</i>-methylmorpholine-<i>N</i>-oxide when replacing aqueous coagulation baths with thermodynamically softer alcohol baths at different temperatures. T...

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Main Authors: Igor S. Makarov, Lyudmila K. Golova, Markel I. Vinogradov, Ivan S. Levin, Georgiy A. Shandryuk, Natalia A. Arkharova, Yaroslav V. Golubev, Anna K. Berkovich, Timofei V. Eremin, Elena D. Obraztsova
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Fibers
Subjects:
cellulose
<i>N</i>-methylmorpholine-<i>N</i>-oxide
carbon fibers
structure
cellulose crystallinity
X-Ray diffraction (XRD)
Online Access:https://www.mdpi.com/2079-6439/8/6/43
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spelling doaj-62c8c2f383ab443fa8df18958b7956892020-11-25T02:58:36ZengMDPI AGFibers2079-64392020-06-018434310.3390/fib8060043The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell FibersIgor S. Makarov0Lyudmila K. Golova1Markel I. Vinogradov2Ivan S. Levin3Georgiy A. Shandryuk4Natalia A. Arkharova5Yaroslav V. Golubev6Anna K. Berkovich7Timofei V. Eremin8Elena D. Obraztsova9A.V. Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences, 29, Leninsky Prospekt, Moscow 119991, RussiaA.V. Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences, 29, Leninsky Prospekt, Moscow 119991, RussiaA.V. Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences, 29, Leninsky Prospekt, Moscow 119991, RussiaA.V. Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences, 29, Leninsky Prospekt, Moscow 119991, RussiaA.V. Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences, 29, Leninsky Prospekt, Moscow 119991, RussiaA.V. Shubnikov Institute of Crystallography, Federal Research Center Crystallography and Photonics, Russian Academy of Sciences, Moscow 119333, RussiaM.V. Lomonosov Moscow State University, 1, Leninskiye Gory, Moscow 119991, RussiaM.V. Lomonosov Moscow State University, 1, Leninskiye Gory, Moscow 119991, RussiaA.M. Prokhorov General Physics Institute RAS, 38 Vavilov Street, Moscow 119991, RussiaA.M. Prokhorov General Physics Institute RAS, 38 Vavilov Street, Moscow 119991, RussiaThis research examines the possibilities of regulating the structure of cellulose precursor fibers spun from solutions in <i>N</i>-methylmorpholine-<i>N</i>-oxide when replacing aqueous coagulation baths with thermodynamically softer alcohol baths at different temperatures. The fibers were spun by the dry jet–wet method in isobutanol coagulation baths with a temperature of 25 °C and 70 °C. The study of the phase state of the solvent–coagulant system using viscometry and point cloud methods revealed the temperature-concentration regions of the single-phase and two-phase states of the system. Using elemental analysis, DSC (differential scanning calorimetry) and XRD (X-ray diffraction) methods, it was shown that just spun fibers, due to the presence of a residual amount of solvent and coagulant in them, regardless of the temperature of the precipitator, have an amorphous structure. Additional washing with water completely washed away the solvent and coagulant as well, however, the structure of cellulose changes slightly, turning into a defective amorphous-crystalline one. A relationship was found between the phase composition, structure, and properties of just spun fibers and precursors washed with water. Thus, the loss of structural ordering of both just spun and washed cellulose fibers leads to a decrease in strength characteristics and an increase in deformation. The thermal behavior of the fibers is determined by their phase composition. Fibers just spun into hot alcohol containing a coagulant and traces of solvent acquire thermal stability up to 330 °C. During the pyrolysis of the obtained precursors up to 1000 °C, the value of the carbon yield doubles. The amorphized structure of the obtained fibers allows us to consider it as a model when analyzing the transformation of the structure of precursors during thermolysis.https://www.mdpi.com/2079-6439/8/6/43cellulose<i>N</i>-methylmorpholine-<i>N</i>-oxidecarbon fibersstructurecellulose crystallinityX-Ray diffraction (XRD)
collection DOAJ
language English
format Article
sources DOAJ
author Igor S. Makarov
Lyudmila K. Golova
Markel I. Vinogradov
Ivan S. Levin
Georgiy A. Shandryuk
Natalia A. Arkharova
Yaroslav V. Golubev
Anna K. Berkovich
Timofei V. Eremin
Elena D. Obraztsova
spellingShingle Igor S. Makarov
Lyudmila K. Golova
Markel I. Vinogradov
Ivan S. Levin
Georgiy A. Shandryuk
Natalia A. Arkharova
Yaroslav V. Golubev
Anna K. Berkovich
Timofei V. Eremin
Elena D. Obraztsova
The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell Fibers
Fibers
cellulose
<i>N</i>-methylmorpholine-<i>N</i>-oxide
carbon fibers
structure
cellulose crystallinity
X-Ray diffraction (XRD)
author_facet Igor S. Makarov
Lyudmila K. Golova
Markel I. Vinogradov
Ivan S. Levin
Georgiy A. Shandryuk
Natalia A. Arkharova
Yaroslav V. Golubev
Anna K. Berkovich
Timofei V. Eremin
Elena D. Obraztsova
author_sort Igor S. Makarov
title The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell Fibers
title_short The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell Fibers
title_full The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell Fibers
title_fullStr The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell Fibers
title_full_unstemmed The Effect of Alcohol Precipitants on Structural and Morphological Features and Thermal Properties of Lyocell Fibers
title_sort effect of alcohol precipitants on structural and morphological features and thermal properties of lyocell fibers
publisher MDPI AG
series Fibers
issn 2079-6439
publishDate 2020-06-01
description This research examines the possibilities of regulating the structure of cellulose precursor fibers spun from solutions in <i>N</i>-methylmorpholine-<i>N</i>-oxide when replacing aqueous coagulation baths with thermodynamically softer alcohol baths at different temperatures. The fibers were spun by the dry jet–wet method in isobutanol coagulation baths with a temperature of 25 °C and 70 °C. The study of the phase state of the solvent–coagulant system using viscometry and point cloud methods revealed the temperature-concentration regions of the single-phase and two-phase states of the system. Using elemental analysis, DSC (differential scanning calorimetry) and XRD (X-ray diffraction) methods, it was shown that just spun fibers, due to the presence of a residual amount of solvent and coagulant in them, regardless of the temperature of the precipitator, have an amorphous structure. Additional washing with water completely washed away the solvent and coagulant as well, however, the structure of cellulose changes slightly, turning into a defective amorphous-crystalline one. A relationship was found between the phase composition, structure, and properties of just spun fibers and precursors washed with water. Thus, the loss of structural ordering of both just spun and washed cellulose fibers leads to a decrease in strength characteristics and an increase in deformation. The thermal behavior of the fibers is determined by their phase composition. Fibers just spun into hot alcohol containing a coagulant and traces of solvent acquire thermal stability up to 330 °C. During the pyrolysis of the obtained precursors up to 1000 °C, the value of the carbon yield doubles. The amorphized structure of the obtained fibers allows us to consider it as a model when analyzing the transformation of the structure of precursors during thermolysis.
topic cellulose
<i>N</i>-methylmorpholine-<i>N</i>-oxide
carbon fibers
structure
cellulose crystallinity
X-Ray diffraction (XRD)
url https://www.mdpi.com/2079-6439/8/6/43
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