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Method for preparing antigenic fibrillating cellulose fibers by dry-jet wet process

A technology of cellulose fiber and dry-spray-wet method, which is applied in the field of preparation of anti-fibrillation cellulose fiber, and can solve the problem that the anti-fibrillation performance is far inferior to viscose fiber, the anti-fibrillation performance is inferior to viscose fiber, and the spinning speed is not fast enough. problems, achieve good spinnability, bright luster, and improve production efficiency

Active Publication Date: 2013-04-17
CHINESE TEXTILE ACAD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The disadvantage of this method is that the solvent used has a long carbon chain, which is difficult in terms of solvent synthesis and recovery, cellulose dissolution and spinning; and the fiber cannot be drawn at a large ratio, so it is difficult to efficiently prepare finer fineness. Cellulose fiber; at the same time, the fibrillation index of the fiber prepared by this method is generally ≤3 or ≤2, and the anti-fibrillation performance is still inferior to that of viscose fiber
[0008] The patent with the application number CN200680048725.1 mentions the use of ionic liquids as solvents for wet spinning to prepare cellulose fibers with a fibrillation index ≤ 2, wherein the cations are imidazolium cations, and the anti-fibril properties of the cellulose fibers prepared by this method Compared with the NMMO solvent dry spray wet cellulose fiber, the fiberization performance is somewhat improved, but it is still far from the anti-fibrillation performance of the viscose fiber. At the same time, the wet method is far behind the dry spray wet method in terms of spinning speed

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040] Mix 85 parts of acetic acid 1-ethyl-3-methylimidazolium ionic liquid with 20 parts of water evenly, mix 15 parts of pulverized wood pulp into it, the melting point of acetic acid 1-ethyl-3-methylimidazolium ionic liquid is less than- 20°C, the degree of polymerization of the wood pulp is 500, and the content of a-cellulose in the wood pulp is 94%. Under the action of stirring, kneading and vacuum, the temperature is gradually raised to 95°C, and the mixture is gradually dehydrated and dissolved to obtain a uniform and transparent , stable solution, the solution viscosity is 1.4 million centipoise. Under the action of pressure, the solution is delivered to the metering pump, further passed through the filter screen, extruded from the spinneret hole, and the filaments pass through a 55mm gap, and stretched 8 times in the gap, and then enter the coagulation bath, which is The aqueous solution of acetic acid 1-ethyl-3-methylimidazolium ionic liquid with a concentration of 2...

Embodiment 2

[0042] Mix 88 parts of 1-allyl-3-methylimidazolium chloride ionic liquid, 20 parts of water, 12 parts of pulverized wood pulp, and 0.18 parts of sodium hydroxide, and mix 1-allyl-3-methylimidazolium chloride The melting point of imidazolium ionic liquid is 18°C, the degree of polymerization of wood pulp is 1000, and the content of a-cellulose in wood pulp is 93%. Put the mixture into the kettle, and gradually raise the temperature to 116 under the action of stirring, kneading, and vacuum. °C, the mixture was gradually dehydrated and dissolved to obtain a uniform, transparent and stable solution with a viscosity of 1.48 million centipoise. Under the action of pressure, the solution is transported to the metering pump, further passed through the filter screen, and extruded from the spinneret hole; the filament passes through a gap of 110mm, and is stretched 10 times in the gap, and then enters the coagulation bath for solidification, the coagulation bath It is an aqueous solutio...

Embodiment 3

[0044] Mix 87 parts of 1-butyl-3-methylimidazolium acetic acid ionic liquid, 30 parts of water, and 13 parts of pulverized wood pulp evenly, and add the mixture into the still, and the ionic liquid of 1-butyl-3-methylimidazolium acetate The melting point is less than -20°C, the degree of polymerization of the wood pulp is 800, and the content of a-cellulose in the wood pulp is 94%. Under the action of stirring, kneading and vacuum, the temperature is gradually raised to 106°C, and the mixture is gradually dehydrated and dissolved to obtain Uniform, transparent and stable solution with a solution viscosity of 1.18 million centipoise. Under the action of pressure, the solution is delivered to the metering pump, further passed through the filter screen, and extruded from the spinneret hole; the filament passes through a gap of 70mm, and is stretched 6.5 times in the gap, and then enters the coagulation bath for solidification, and the coagulation bath It is an aqueous solution of...

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Abstract

The invention provides a method for preparing antigenic fibrillating cellulose fibers by a dry-jet wet process. The method includes the steps: (1) uniformly mixing ionic liquid with celluloses, and gradually increasing the temperature to 50-130 DEG C under the vacuum condition and by means of stirring to enable the celluloses to be dissolved so that cellulose solution with the draft ratio more than or equal to 5 is obtained, wherein the weight ratio of the celluloses to the ionic liquid is 7:93-20:80, and the temperature of the melting point of the ionic liquid is not more than 50 DEG C; and (2) by the dry-jet wet process, enabling the cellulose solution to pass through spinneret orifices and enter clearances in the size of 50-300mm prior to more than 5 times of draft, solidification, washing, winding and drying so that the antigenic fibrillating cellulose fibers are prepared, wherein the winding speed is 15-120m / min. The antigenic fibrillating cellulose fibers prepared by the method are excellent in performance, and the method is low in pollution and energy consumption.

Description

technical field [0001] The present invention relates to a method for preparing anti-fibrillating cellulose fibers by a dry-spray-wet method. Background technique [0002] Cellulose is one of the most abundant renewable resources on earth. The fibers prepared from it include viscose fiber, cupro fiber and Lyocell fiber, among which viscose fiber includes viscose filament and viscose cord , ordinary viscose staple fiber, high wet modulus viscose staple fiber and other varieties. [0003] With the progress of society and the increasing awareness of environmental protection, the problems of high pollution and high energy consumption in the preparation process of viscose fiber have attracted more and more attention. While these problems have seriously restricted the further wide application of viscose fiber, they have also inspired Expectations and concerns for new solvent-processed cellulose fibers. Research on new solvent-based cellulose fibers has never stopped. People have ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): D01D5/06D01D1/02D01F2/02D01F1/02
Inventor 李晓俊孙玉山李念珂徐纪刚段先泉朱庆松陆伊伦
Owner CHINESE TEXTILE ACAD
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