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Preparation method for euphausiid protein regenerated cellulose fibers

A technology of regenerated cellulose and krill, applied in the direction of cellulose/protein conjugated rayon, etc., can solve the problems of low fiber strength and difficult industrial raw materials, etc., to achieve excellent skin-friendly, good strength, improved hand feel and luster Effect

Active Publication Date: 2014-04-23
JIANGSU GOLDSUN TEXTILE SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in this patent, krill protein is blended with sodium alginate solution, and the strength of the obtained fiber is relatively low, so it is difficult to be used as an industrial raw material for textile processing.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Preparation of viscose solution: cotton pulp with a degree of polymerization of 500 and a mass content of A fiber of 93.5% (cotton pulp, also known as refined cotton pulp, is made from cotton linter as raw material, and is purified by alkaline cooking, rinsing, etc. A kind of high-purity cellulose), and the spun viscose solution is prepared by successively dipping, pressing, pulverizing, aging, yellowing, continuous dissolving, filtration, defoaming and other processes. The obtained A fiber mass content is 8.9%, the NaOH mass content is 5.5%, the viscosity (falling ball method: the time required for a 2mm steel ball to drop 20cm from the viscose solution) is 45s, and the maturity (10%NH 4 Cl) 9.4ml, which is the viscose solution to be used.

[0027] Preparation of pre-crosslinked krill protein solution: prepare a sodium hydroxide solution with a mass fraction of 3% in the reactor with distilled water, add krill protein with a weight of 5% of the sodium hydroxide solutio...

Embodiment 2

[0034] Preparation of viscose solution: using cotton pulp with a degree of polymerization of 500 and a mass content of A fiber of 93.5%, the spun viscose solution is prepared by successive processes such as dipping, pressing, crushing, aging, yellowing, continuous dissolution, filtration, and defoaming. . The mass content of the obtained methyl fiber is 8.9%, the mass content of NaOH is 5.5%, the viscosity (falling ball method) is 50s, and the maturity (10%NH 4 Cl) 9.2ml, which is the viscose solution to be used.

[0035]Preparation of pre-crosslinked krill protein solution: prepare a sodium hydroxide solution with a mass fraction of 7% with distilled water in the reactor, add krill protein with a weight of 13% of the sodium hydroxide solution into the reactor, and then add the sodium hydroxide solution to the reactor. The dispersant lignosulfonic acid amine 0.7% by weight of krill protein was added to prevent the krill protein from clumping out when the temperature dropped. ...

Embodiment 3

[0042] Preparation of viscose solution: using cotton pulp with a degree of polymerization of 500 and a mass content of A fiber of 93.5%, the spun viscose solution is prepared by successive processes such as dipping, pressing, crushing, aging, yellowing, continuous dissolution, filtration, and defoaming. . The mass content of the obtained methyl fiber is 8.9%, the mass content of NaOH is 5.5%, the viscosity (falling ball method) is 48s, and the maturity (10%NH 4 Cl) 9.1ml, which is the viscose solution to be used.

[0043] Preparation of pre-crosslinked krill protein solution: prepare a sodium hydroxide solution with a mass fraction of 10% in the reactor with distilled water, add krill protein with a weight of 20% of the sodium hydroxide solution into the reactor, and then add the sodium hydroxide solution to the reactor. Add the dispersant amine lignosulfonate with a weight of 1% of krill protein, add krill protein with a mass percentage of 20% to the reaction kettle, and the...

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Abstract

The invention relates to the field of chemical fiber materials and discloses a preparation method for euphausiid protein regenerated cellulose fibers. The preparation method comprises the following steps: preparing a mucilage glue solution for later use; preparing a pre-cross-linked euphausiid protein solution: sequentially adding a sodium hydroxide solution, euphausiid protein and lignin sulfamic acid; agitating at 50-70 DEG C for 4-6 hours; cooling to 35-45 DEG C, keeping the heat and filtering to obtain a filtering solution, namely the euphausiid protein solution; adding a cross-linking agent into the euphausiid protein solution and keeping the heat at 35-45 DEG C to react for 0.4-0.6 hour to prepare the pre-cross-linked euphausiid protein solution; and mixing the mucilage glue solution, the pre-cross-linked euphausiid protein solution and the cross-linking agent and spinning. The fibers prepared by the preparation method have good strength; the strength of the fibers is enhanced; meanwhile, the hand feeling and the luster of the fibers are improved and the fibers can be used as raw materials of a textile industry.

Description

technical field [0001] The invention relates to the field of chemical fiber materials, in particular to a preparation method of krill protein regenerated cellulose fibers. Background technique [0002] As the largest single biological resource in the Southern Ocean, Antarctic krill is an important group of marine zooplankton, supporting the population of huge high-level predators such as penguins, seals, and cetaceans. In addition to being a key organism in a biological system, it has also attracted increasing attention because of its huge biomass and potential fishery resources. [0003] The amino acid scores AAS (except threonine and valine) of essential amino acids in Antarctic krill were all close to or greater than 1; the chemical scores CS (except threonine, valine and tryptophan) were all greater than 0.5, which indicated that It shows that the essential amino acid composition of Antarctic krill muscle is relatively balanced and rich in content. However, the lysine ...

Claims

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Application Information

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IPC IPC(8): D01F8/02
Inventor 胡青青陈红霞陆鹏丁可敬
Owner JIANGSU GOLDSUN TEXTILE SCI & TECH
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