Antibacterial hollow activated carbon fiber of negative ion, and preparation method

An activated carbon fiber, negative ion antibacterial technology, applied in the manufacture of hollow filaments, fiber chemical characteristics, rayon manufacturing, etc., can solve the problems of inability to bond fibers, easy peeling, antibacterial agents and negative ion releasing materials and carbon fibers. achieve a firm bond

Inactive Publication Date: 2006-04-19
NORTHWESTERN POLYTECHNICAL UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

And there is no report about coating tourmaline on the surface of activated carbon fibers at present.
The reason is that the particle size of tourmaline powder is large, it cannot be firmly combined with the surface of the fiber, and it is easy to peel off.
And becau

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] Embodiment 1: be the tourmaline powder of 20 parts by weight ratio, the Ag-loaded zirconium phosphate antibacterial agent that is 6 parts by weight ratio, the Ti(OC that weight ratio is 25 parts 5 h 11 ) 4 And the hollow activated carbon fiber that is 100 parts by weight is equipped with negative ion antibacterial hollow activated carbon fiber.

[0026] (1) Put 20 g of tourmaline powder in a beaker filled with 100 g of distilled water, place the beaker in an ultrasonic generator, and ultrasonically disperse for 3 minutes to prepare a tourmaline powder emulsion.

[0027] (2) Put the hollow activated carbon fiber in the tourmaline emulsion, vacuum and impregnate for 3 minutes.

[0028] (3) Take out the impregnated hollow activated carbon fiber, place it in an oven, and dry it at 105°C.

[0029] (4) Repeat steps (2) and (3) several times according to the amount of tourmaline powder added.

[0030] (5) Put 6g of the Ag-loaded zirconium phosphate antibacterial agent in a...

Embodiment 2

[0035] Embodiment 2: be the tourmaline powder of 39 parts with weight ratio, the Ag-loaded zirconium phosphate antibacterial agent that weight ratio is 14 parts, the Ti(OC that weight ratio is 15 parts 5 h 11 ) 4 And the hollow activated carbon fiber that is 100 parts by weight is equipped with negative ion antibacterial hollow activated carbon fiber.

[0036] (1) Put 39g of tourmaline powder in a beaker filled with 100g of distilled water, place the beaker in an ultrasonic generator, and ultrasonically disperse for 4 minutes to prepare a tourmaline powder emulsion.

[0037] (2) Put the hollow activated carbon fiber in the tourmaline emulsion, vacuum and impregnate for 4 minutes.

[0038] (3) Take out the impregnated hollow activated carbon fiber, place it in an oven, and dry it at 105°C.

[0039] (4) Repeat steps (2) and (3) several times according to the amount of tourmaline powder added.

[0040] (5) Put 14g of the Ag-loaded zirconium phosphate antibacterial agent in a ...

Embodiment 3

[0045] Embodiment 3: be the tourmaline powder of 32 parts by weight ratio, be the silver-loaded zeolite antimicrobial agent of 8 parts by weight ratio, be the Ti(OC of 18 parts by weight ratio 5 h 11 ) 4 And the hollow activated carbon fiber that is 100 parts by weight is equipped with negative ion antibacterial hollow activated carbon fiber.

[0046] (1) Put 32g of tourmaline powder in a beaker filled with 100g of distilled water, place the beaker in an ultrasonic generator, and ultrasonically disperse for 4 minutes to prepare a tourmaline powder emulsion.

[0047] (2) Put the hollow activated carbon fiber in the tourmaline emulsion, vacuum and impregnate for 4 minutes.

[0048] (3) Take out the impregnated hollow activated carbon fiber, place it in an oven, and dry it at 105°C.

[0049] (4) Repeat steps (2) and (3) several times according to the amount of tourmaline powder added.

[0050] (5) Put 8 g of the silver-loaded zeolite antibacterial agent in a beaker filled wit...

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Abstract

The present invention relates to a negative ion anti-bacterial hollow carbon fibre and its preparation method. It includes (by weight ratio) 5-13 portions of tourmaline, 0.6-4 portions of Ag anti-bactrial agent, 15-25 portions of Ti (OC5H11)4 and 100 portions of hollow active carbon. Its preparation method includes the following steps: using hollow active carbon as carrier, adopting vacuum repeated impregnation process to make the micro-size tourmaline powder be fed into central pore of hollow active carbon fibre, and utilizing the combination of vacuum repeated impregnation and sol-gel to make the surface of hollow active carbon fibre be coated with nano-size silver series anti-bacterial agent and nano-size TiO2 series anti-bacterial agent. The number of negative ions released by the invented hollow active carbon fibre can be up to 2200-2250/cu cm. For Escherichia coli the diameter the diameter of its bacteriostatic ring can be up to 22 mm, and for staphylococcus aureus the diameter of its bacteriostatic ring can be up to 21.5 mm.

Description

technical field [0001] The invention relates to an anion antibacterial hollow activated carbon fiber, and also relates to a preparation method of the anion antibacterial hollow activated carbon fiber. Background technique [0002] The document "Chinese Patent N002111545.1" discloses a silver-loaded tourmaline multifunctional fiber and its manufacturing method, which is made of silver-loaded tourmaline and viscose fiber. The fiber has the advantages of emitting far infrared, releasing negative ions, generating bioelectricity, antibacterial, deodorizing and deodorizing. [0003] The document "Chinese patent NO03147863.8" discloses an antibacterial activated carbon fiber and its preparation method. Activated carbon fibers are immersed in a solution containing at least one metal ion Ag#+[+], Cu#+[2+], Zn#+[2+], and the activated carbon fibers are covered with silver through adsorption and chemical reaction. ions, copper ions and zinc ions, and then dried, it has a good effect ...

Claims

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Application Information

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IPC IPC(8): D01F9/12D01D5/24
Inventor 黄凤萍李贺军
Owner NORTHWESTERN POLYTECHNICAL UNIV
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