Preparation method of sodium-alginate-based nano colloid functional modifier for alginate fibers

A technology of sodium alginate and nano colloid, which is applied in the fields of fiber chemical characteristics, alginate rayon, rayon manufacturing, etc. It can solve the high energy consumption of nano metal powder, the difficulty of controlling the nano particle size, and the difficulty of adding seaweed fiber and other problems, to achieve the effect of increased stability, not easy to aggregate, and small particle size

Inactive Publication Date: 2013-06-12
QINGDAO UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] It can be seen from the above-mentioned patented method that the current preparation technology of nano-metal powder has high energy consumption, serious pollution, difficult control of nano-particle size, and easy aggregation. It is very difficult to add it to seaweed fiber, especially the lack of a nano Metal modifier and its preparation and application method

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] Prepare a silver ammonia solution with a concentration of 0.13mol / L by using silver nitrate and ammonia water, mix it with a 0.25% sodium alginate aqueous solution at a volume ratio of 1:87, and add glucose equivalent to the silver ammonia solution as a reducing agent , control the temperature at 48° C., stir and react for 39 minutes, and prepare sodium alginate-based nano-silver colloid.

[0019] After testing: the particle size of the nano-silver is 5-10nm, and the stability is ≥12 months. Sodium alginate-based nano-silver colloid is mixed with other raw materials of seaweed fiber to prepare antibacterial and flame-retardant seaweed functional fiber. The fiber also has the property of shielding electromagnetic waves, and the fiber breaking strength is ≥2.0cN / dtex; the antibacterial rate against Staphylococcus aureus is 98.1%, and the large intestine The antibacterial rate of bacilli is 99.99%; the limiting oxygen index is ≥30.2%; the shielding rate of the fabric made ...

Embodiment 2

[0021] Silver nitrate, copper sulfate, nickel sulfate, ferrous sulfate and zinc sulfate mixed solution 100g, which contains silver nitrate 12g, copper sulfate 3g, nickel sulfate 5g, ferrous sulfate 7g, zinc sulfate 6g, the mixed solution and ethylenediamine Prepare a complex solution with a concentration of 0.22mol / L by reaction, mix it with a 1.5% sodium alginate aqueous solution in a volume ratio of 1:66, and add hypophosphorous acid equal to the metal ion in the complex solution Sodium was used as the reducing agent, and the sodium alginate-based nano-silver copper-nickel-iron multi-metal colloid was prepared by stirring and reacting at 36°C for 90 minutes.

[0022] After testing: the nanometer particle size is 20-45nm, and the stability is ≥12 months. Sodium alginate-based nano-silver copper-nickel-iron multi-metal colloid is mixed with other raw materials of seaweed fiber and wet-spun to prepare antibacterial and radiation-proof seaweed functional fiber, and the fiber bre...

Embodiment 3

[0024] First use 3.3% mass fraction of gold potassium citrate and ammonium citrate solution to react equimolarly to prepare a complex solution with a concentration of 0.27mol / L, and then mix it with 2.2% mass percentage of sodium alginate aqueous solution at a volume of 1:100 Mixed with the metal ion in the complex solution, adding a mixed reducing agent of 1.5% sodium hypophosphite, 0.6% glucose, and 1% sodium ascorbate in an equimolar mass fraction of the metal ion in the complex solution, and stirred and reacted at 75°C for 160 minutes to prepare sodium alginate-based nanoparticles. Gold colloid.

[0025] After testing: nano-particle size 35 ~ 47nm, stability ≥ 12 months. Sodium alginate-based nano-gold colloid is mixed with other raw materials of seaweed fiber and wet-spun to prepare antistatic and radiation-proof seaweed functional fiber, and the fiber breaking strength is ≥2.0cN / dtex. Fiber surface resistance ≤10 7 ; The shielding rate of the fabric made of this fiber ...

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Abstract

The invention provides a preparation method of a sodium-alginate-based nano colloid functional modifier for alginate fibers, which comprises the following steps: mixing a sodium alginate water solution with a certain mass percentage and a 0.13-5.2 mol / L soluble metal salt complex solution in a volume ratio of (10-100):1; adding a certain amount of reducer into the mixed solution, and carrying out complete reaction under stirring conditions for 10-160 minutes while controlling the reaction temperature at 10-85 DEG C, thereby obtaining the sodium-alginate-based nano colloid functional modifier. The modifier prepared by the method provided by the invention has the advantages of uniform particle size distribution and low aggregation tendency, and has long-term stability without aggregation and favorable compatibility with a seaweed spinning solution, and the average particle size can be controlled at 25 nm or so; and the method has the advantages of no pollution, low carbon and energy saving; the metal nanoparticles can not aggregate or block the spinneret orifices in the spinning process; and thus, the invention completely implements continuous industrial production of functional alginate fibers.

Description

technical field [0001] The invention relates to the field of preparation of a nano-colloid functional modifier, in particular to the field of preparation of a sodium alginate-based nano-colloid functional modifier for seaweed fibers. Background technique [0002] The 21st century is the century of the ocean. The development and utilization of marine resources is a hot spot that countries are competing to develop. As a marine plant, kelp has an annual regeneration capacity of more than 15 million tons. my country's total seaweed production in 2011 was more than 1 million tons, of which kelp production exceeded 400,000 tons, accounting for more than 90% of the world's total production. China is the country with the largest amount of kelp cultured in the world and has a huge resource advantage. But at present, the utilization of kelp is mainly used directly as food or to extract food additives, and the price per ton varies from 4,000 yuan to tens of thousands of yuan, and the a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L5/04C08K3/08B22F9/24D01F1/10D01F9/04
Inventor 李群赵昔慧夏延致
Owner QINGDAO UNIV
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