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Method for fabricating one-off composite glove of nitrile butadiene rubber polyurethane and the use thereof

A technology of nitrile rubber and a manufacturing method, which is applied to gloves, surgical gloves, other household appliances, etc., can solve the problems of poor air permeability and moisture permeability of nitrile rubber gloves, easy damage to hand skin, and small market share. The effect of no decrease in strength, improved wearing comfort, good application and economical significance

Inactive Publication Date: 2009-07-15
TIANJIN GREENCOAT POLYMER MATERIAL TECH CO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the fly in the ointment is that the modulus of nitrile rubber gloves is large at low elongation, and the restraint of the opponent is large, which is easy to wear and fatigue.
Secondly, nitrile rubber gloves have poor air permeability and moisture permeability, and it is easy to damage the skin of the hands when worn for a long time
Polyurethane gloves not only have the advantages of good oil and weather resistance and good anti-bacterial permeability of nitrile rubber gloves, but also have good breathable and moisture-permeable characteristics. However, due to the high price and small market share, they have not replaced nitrile rubber gloves. preferred

Method used

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  • Method for fabricating one-off composite glove of nitrile butadiene rubber polyurethane and the use thereof
  • Method for fabricating one-off composite glove of nitrile butadiene rubber polyurethane and the use thereof
  • Method for fabricating one-off composite glove of nitrile butadiene rubber polyurethane and the use thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0045] 1. Preparation of dispersion

[0046] Sulfur: 12.9Kg

[0047] Zinc oxide: 15.48Kg

[0048] Accelerator BZ: 10.32Kg

[0049] Titanium dioxide: 25.8Kg

[0050] Dispersant: 4.13Kg

[0051] Deionized water: 147Kg

[0052] Put the above materials into the ball mill and grind for 48~72 hours, and control the fineness below 10 mesh.

[0053] 2. Preparation of nitrile rubber

[0054] Synthomer6311: 2867Kg

[0055] KOH (5%) solution: 240Kg

[0056] Dispersion liquid: 215.63Kg

[0057] Ammonia water (3% concentration): 258Kg

[0058] Blue pigment SS377-1: 2Kg

[0059] Release agent 56Kg

[0060] Deionized water 1613Kg

[0061] Put the above materials into the rubber mixing tank in order, stir slowly for 24~72 hours, and then put them into the nitrile latex tank of the production line. The nitrile rubber should be slowly circulated in the tank for at least 2-4 hours to eliminate the bubbles in the liquid and start the production line.

[0062] 3. Preparation of coagu...

Embodiment 2

[0090] 1. Preparation of dispersion

[0091] Sulfur: 12.9Kg

[0092] Zinc oxide: 15.48Kg

[0093] Accelerator BZ: 10.32Kg

[0094] Titanium dioxide: 25.8Kg

[0095] Dispersant: 4.13Kg

[0096] Deionized water: 147Kg

[0097] Put the above materials into the ball mill and grind for 48~72 hours, and control the fineness below 10 mesh.

[0098] 2. Preparation of nitrile rubber

[0099] Synthomer6311: 2867Kg

[0100] KOH (5%) solution: 240Kg

[0101] Dispersion liquid: 215.63Kg

[0102] Ammonia water (3% concentration): 258Kg

[0103] Blue pigment SS377-1: 2Kg

[0104] Release agent 56Kg

[0105] Deionized water 1855Kg

[0106] Put the above materials into the rubber mixing tank in order, stir slowly for 24~72 hours, and then put them into the nitrile latex tank of the production line. The nitrile rubber should be slowly circulated in the tank for at least 2-4 hours to eliminate the bubbles in the liquid and start the production line.

[0107] 3. Preparation of coagu...

Embodiment 3

[0118] 1. Preparation of dispersion

[0119] Sulfur: 12.9Kg

[0120] Zinc oxide: 15.48Kg

[0121] Accelerator BZ: 10.32Kg

[0122] Titanium dioxide: 25.8Kg

[0123] Dispersant: 4.13Kg

[0124] Deionized water: 147Kg

[0125] Put the above materials into the ball mill and grind for 48~72 hours, and control the fineness below 10 mesh.

[0126] 2. Preparation of nitrile rubber

[0127] Synthomer6311: 2867Kg

[0128] KOH (5%) solution: 240Kg

[0129] Dispersion liquid: 215.63Kg

[0130] Ammonia water (3% concentration): 258Kg

[0131] Blue pigment SS377-1: 2Kg

[0132] Release agent 56Kg

[0133] Deionized water 2100Kg

[0134] Put the above materials into the rubber mixing tank in order, stir slowly for 24~72 hours, and then put them into the nitrile latex tank of the production line. The nitrile rubber should be slowly circulated in the tank for at least 2-4 hours to eliminate the bubbles in the liquid and start the production line.

[0135] 3. Preparation of coagula...

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Abstract

A method for making a disposable acrylonitrile-butadiene-polyurethane composite glove and a use thereof are provided. The method includes below steps: using a continuous line, first forming a substrate film of acrylonitrile-butadiene on a former, then dip-coating the former with water-soluble polyurethane latex to form a polyurethane film on the outer of the substrate film of acrylonitrile-butadiene. The polyurethane accounts for 3-15% of the total weight of the glove.

Description

technical field [0001] The invention relates to a manufacturing method of a disposable nitrile rubber-polyurethane composite glove and its use, especially a thin disposable nitrile rubber-polyurethane composite glove with a thickness of less than 0.09mm and polyurethane accounting for 5-10% of the total weight of the glove The manufacturing method and its use. Background technique [0002] With the continuous improvement of people's self-protection awareness, more and more people use disposable gloves in hospitals, food processing, electronic assembly and other places. At present, there are mainly four types of disposable gloves used by people: PVC gloves, natural rubber gloves, nitrile rubber gloves and polyurethane gloves. PVC gloves are cheap, but have poor protection, especially causing "white trash" problems to the environment. Natural rubber gloves are limited by the insufficient supply of natural materials, and the price continues to rise, especially the problem of ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B29C41/22B29C41/14B29C41/34B29C41/52B29C35/02A41D19/00B29K9/00B29K75/00B29L31/48
CPCA61B19/04B29C41/22B29C41/14A61B42/00
Inventor 万东华
Owner TIANJIN GREENCOAT POLYMER MATERIAL TECH CO
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