Self-adsorption and self-exhaust silica gel, self-adsorption and self-exhaust silica gel preparation method and tempered glass protection film applying self-adsorption and self-exhaust silica gel

A tempered glass, self-exhausting technology, used in chemical instruments and methods, glass/slag layered products, rubber layered products, etc., can solve the requirements of very high machine precision, guide rollers can not have dust bending, silicone surface Problems such as poor adsorption and exhaust performance, to achieve the effect of easy purchase, increased tolerance rate, and sensitive touch

Active Publication Date: 2015-04-01
SHENZHEN MOMA TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The tempered glass protective film is to use the strength of tempered glass and the exhaust adsorption effect of special silicone resin to make the tempered protective film perfectly adhere to the mobile phone screen, which plays a vital role in the protection of the mobile phone screen. Now the silicone The disadvantages are poor exhaust performance, poor self-adsorption performance, and poor tolerance to dust. When coating, the precision of the machine is very high. The machine must not vibrate, the guide roller must not be bent by dust, and the environmental requirements are generally above 1

Method used

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  • Self-adsorption and self-exhaust silica gel, self-adsorption and self-exhaust silica gel preparation method and tempered glass protection film applying self-adsorption and self-exhaust silica gel
  • Self-adsorption and self-exhaust silica gel, self-adsorption and self-exhaust silica gel preparation method and tempered glass protection film applying self-adsorption and self-exhaust silica gel
  • Self-adsorption and self-exhaust silica gel, self-adsorption and self-exhaust silica gel preparation method and tempered glass protection film applying self-adsorption and self-exhaust silica gel

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] At room temperature, place 2,000-20,000 parts of toluene in a non-polluting glue container and disperse and stir at a speed of 300-500r / min. Slowly add 1,000-4,000 parts of methyl vinyl silicone rubber during the stirring process, and then adjust the stirring Speed ​​up to 900-1600r / min, stir for 2-8 hours to obtain liquid phase A for use; add 50-300 parts of silicone resin to liquid phase A and stir at 900-1600r / min for 8-10 minutes to obtain liquid phase B; Put 20-60 parts of vinyl silicone oil in another non-polluting glue preparation container and disperse and stir at a speed of 500-600r / min. During the stirring process, add 8-20 parts of acetylene cyclohexanol and mix again Stir for 15-25 minutes, and the liquid is completely mixed to obtain liquid phase C; add liquid phase C to liquid phase B, and stir at a speed of 900-1500r / min for 1-2 hours to obtain liquid phase D; then mix 3 to 18 parts The organosilicon crosslinking agent is added to the liquid phase D and s...

Embodiment 2

[0040]At room temperature, place 8,000-12,000 parts of toluene in a non-polluting glue container and disperse and stir at a speed of 300r / min. Slowly add 2,000-3,000 parts of methyl vinyl silicone rubber during the stirring process, and then adjust the stirring speed to 1200r / min, stirred for 5 hours to obtain liquid phase A for use; add 100-200 parts of silicone resin to liquid phase A and stir at 1200r / min for 10 minutes to obtain liquid phase B; 40-50 parts of vinyl Place the silicone oil in another non-polluting glue preparation container and disperse and stir at a speed of 550r / min. During the stirring process, add 10-15 parts of acetylene cyclohexanol, and then mix and stir for 20 minutes. After the liquid is completely mixed, a liquid phase C is obtained. ; Add liquid phase C to liquid phase B and stir at a speed of 1200r / min for 1.5 hours to obtain liquid phase D; Stir for 10 minutes to obtain liquid phase E; finally add 10 to 15 parts of organosilicon catalyst into li...

Embodiment 3

[0043] At room temperature, place 10,000 parts of toluene in a non-polluting glue container and disperse and stir at a speed of 350r / min. During the stirring process, slowly add 2500 parts of methyl vinyl silicone rubber, and then adjust the stirring speed to 1200r / min. After stirring for 5 hours, liquid phase A was obtained for use; 150 parts of silicone resin was added to liquid phase A and stirred at 1200r / min for 10 minutes to obtain liquid phase B; 45 parts of vinyl silicone oil was placed in another non-polluting Disperse and stir at a speed of 550r / min in the glue preparation container, add 12 parts of acetylene cyclohexanol during the stirring process, and mix and stir for 20 minutes, and obtain liquid phase C after the liquid is completely mixed; add liquid phase C to liquid phase B , stirred at a speed of 1200r / min for 1.5 hours to obtain liquid phase D; then added 13 parts of silicone crosslinking agent into liquid phase D and continued to stir at a speed of 1200r / mi...

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PUM

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Abstract

The invention discloses self-adsorption and self-exhaust silica gel, a self-adsorption and self-exhaust silica gel preparation method and a tempered glass protection film applying the self-adsorption and self-exhaust silica gel, and belongs to the field of polymer materials. The self-adsorption and self-exhaust silica gel comprises, by weight, 1,000-4,000 parts of methyl vinyl silicone rubber, 2,000-20,000 parts of methylbenzene, 50-300 parts of silicone resin, 8-20 parts of ethynyl cyclohexanol, 20-60 parts of vinyl silicone oil, 3-18 parts of organic silicone cross-linking agents and 5-20 parts of organic silicon catalysts. The tempered glass protection film is composed of tempered glass, an acrylic adhesive layer, a PET layer and a self-adsorption and self-exhaust silica gel layer from top to bottom, and the thickness of the tempered glass protection film is 390-650 microns. According to the tempered glass protection film applying the self-adsorption and self-exhaust silica gel, the problems that common silica gel is poor in exhaust and light transmittance, has bubbles and easily produces splay marks and other problems which are always difficult to solve in the industry are solved, and meanwhile the problems that the common silica gel will have snowflake lines, splay marks and streaks and other uneven problems during self adsorption and self exhaust can be solved.

Description

technical field [0001] The invention belongs to the field of polymer materials, and in particular relates to a self-absorbing and self-exhausting silica gel, a preparation method and a tempered glass protective film for its application. Background technique [0002] Tempered glass belongs to safety glass and is a kind of prestressed glass. In order to improve the strength of glass, chemical or physical methods are usually used to form compressive stress on the glass surface. When the glass is subjected to external force, it first offsets the surface stress, thereby improving Bearing capacity, enhance the glass's own wind pressure resistance, cold and heat resistance, impact resistance, etc. [0003] The tempered glass protective film is to use the strength of tempered glass and the exhaust adsorption effect of special silicone resin to make the tempered protective film perfectly adhere to the mobile phone screen, which plays a vital role in the protection of the mobile phone...

Claims

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Application Information

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IPC IPC(8): C08L83/07C08L83/04C08K5/05B32B17/10B32B25/08B32B25/20B32B27/36B32B7/12
Inventor 孙金永席忠飞刘虎林姚杰杨守成周运垚贺自力周丽娜
Owner SHENZHEN MOMA TECH CO LTD
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