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Preparation method of electronic cigarette oil-leading rope with carbon nanotube-graphite synergetic enhancement

A carbon nanotube and oil-guiding rope technology, applied in melt spinning, rayon manufacturing, conjugated rayon, etc., can solve problems such as poor thermal conductivity, achieve broad market application prospects, enhance thermal conductivity, mechanical The effect of performance improvement

Active Publication Date: 2016-05-04
CHINA TOBACCO GUANGXI IND
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In this way, carbon nanotubes and graphite synergistically improve the thermodynamic properties of the original fiber at different positions throughout the fiber, thereby eliminating the defects of brittle and poor thermal conductivity of the e-cigarette oil guide rope, which is currently not in the field of e-cigarettes reported

Method used

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  • Preparation method of electronic cigarette oil-leading rope with carbon nanotube-graphite synergetic enhancement

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] Example 1: A carbon nanotube / graphite synergistically enhanced electronic cigarette oil guide rope with an added amount of carbon nanotubes of 0.1% and an added amount of graphite of 20%, with a thermal conductivity of 5.42W / (m*k)

[0026] Disperse 2000g of glass fibers in a mixed solvent of water and ethanol, add 2g of carboxylated carbon nanotube material (100nm is truncated to 10nm after being acidified with mixed acid), and stir at 80°C for 24 hours, so that the carbon nanotubes above The groups fully react with the groups on the glass fiber; after the reaction, the unreacted carbon nanotubes are washed twice with deionized water, and dried at 100°C to obtain carbon nanotube-modified glass fibers. 500g of flake high-carbon graphite material with an average particle size of 100μm, 20g of coupling agent, and ethanol as a solvent were used to disperse and react at a high speed of 25,000rpm for 8 hours at a temperature of 50°C, so that the original graphite material It ...

Embodiment 2

[0027]Example 2: A carbon nanotube / graphite synergistically enhanced electronic cigarette oil guide rope with an added amount of carbon nanotubes of 0.5% and an added amount of graphite of 20%, with a thermal conductivity of 6.89W / (m*k)

[0028] Disperse 500g of glass fiber in a mixed solvent of water and ethanol, add 2.5g of carboxylated carbon nanotube material (1000nm is truncated to 100nm after being acidified with mixed acid), and stir at 50°C for 72 hours to make the carbon nanotube After the reaction, the unreacted carbon nanotubes were washed 4 times with deionized water, and dried at 60°C to obtain carbon nanotube-modified glass fibers. 500g of flake low-carbon graphite material with an average particle size of 1μm, 1g of coupling agent, and ethanol as a solvent were used to disperse and react at a high speed of 10,000rpm for 12 hours at a temperature of 70°C, so that the original graphite material It is broken down and becomes smaller (0.5 μm) and the surface is modi...

Embodiment 3

[0029] Example 3: A carbon nanotube / graphite synergistically enhanced electronic cigarette oil guide rope with an added amount of carbon nanotubes of 2.5% and an added amount of graphite of 20%, with a thermal conductivity of 8.98W / (m*k)

[0030] Disperse 500g of glass fiber in a mixed solvent of water and ethanol, add 12.5g of carboxylated carbon nanotube material (100nm is truncated to 10nm after being acidified with mixed acid), and stir at 100°C for 12 hours to make the carbon nanotube The groups on the glass fiber fully reacted with the groups on the glass fiber; after the reaction, the unreacted carbon nanotubes were washed three times with deionized water, and dried at 200°C to obtain carbon nanotube-modified glass fibers. 500g of expanded high-carbon graphite material with an average particle size of 500μm, 20g of coupling agent, and ethanol as a solvent were used to disperse and react at a high speed of 50,000rpm for 1 hour at a temperature of 50°C, so that the origina...

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Abstract

The invention discloses an electronic cigarette oil-leading rope with carbon nanotube-graphite synergetic enhancement, and a preparation method thereof. The preparation method comprises the following steps of adopting glass fiber as a raw material, using a modified carbon nanotube to modify the glass fiber, and carrying out coupling treatment, so that the carbon nanotube is chemically grafted on the glass fiber to obtain the glass fiber with carbon nanotube enhancement; on the other hand, homogenizing and smashing graphite materials, coupling the surface, and then adding into resin of a polymer to form slurry of the glass fiber; performing blend spinning the glass fiber with carbon nanotube enhancement with graphite-added resin to obtain the glass fiber / polymer composite fiber with carbon nanotube / graphite synergetic enhancement, and interwinding to form the electronic cigarette oil-leading rope. According to the electronic cigarette oil-leading rope provided by the invention, the preparation process is simple and convenient, the problems of poor elasticity, fragility, easiness in breaking, poor abrasion resistance and the like of the traditional oil-leading rope are well solved, meanwhile, the heat transmission capacity is also enhanced, and the phenomenon that an electronic cigarette element is damaged due to dry ashing is avoided.

Description

technical field [0001] The invention belongs to the technical field of composite materials, and in particular relates to a method for preparing a carbon nanotube / graphite synergistically reinforced electronic cigarette oil guide rope. Background technique [0002] The oil guide rope in the electronic cigarette is the key part of the atomizer to generate smoke. It guides the smoke oil into the heating wire and atomizes it to form smoke. However, the main component of the traditional electronic cigarette oil guide rope is a composite material of glass fiber / polymer. Although it has good insulation and oil conductivity, it is brittle and has poor wear resistance, and its thermal conductivity is not good, which is prone to dry burning. This phenomenon will affect the taste of e-cigarette smoke. [0003] A carbon nanotube is a tubular carbon fiber with a nanometer diameter. Due to the carbon atoms on its surface and a large number of SP 2 Hybridization exists, the S orbital com...

Claims

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Application Information

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IPC IPC(8): D01F8/06D01F8/10D01F8/14D01F8/16D01F8/18D01F1/10D01D5/08C03C25/66
CPCC03C25/66D01D5/08D01F1/10D01F8/06D01F8/10D01F8/14D01F8/16D01F8/18
Inventor 李典田兆福陆漓梁俊黄忠辉
Owner CHINA TOBACCO GUANGXI IND
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