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Hardening, anti-ultraviolet and anti-glare multifunctional paint for polarizer

A technology of anti-ultraviolet and polarizers, applied in the field of polarizers, can solve problems such as single function and poor polarizing lens effect, and achieve the effect of eliminating glare

Active Publication Date: 2010-08-18
宁波科乐新材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to overcome the deficiencies mentioned above, the object of the present invention is to provide a kind of hardened anti-ultraviolet and anti-glare multi-functional coating for polarizers in the art, which has good transparency, high hardness, friction resistance, coating film hardening, Anti-ultraviolet, glare elimination, moisture-proof, and infrared-absorbing multiple functions, used for polarizer coating and its preparation technology, to solve the technical problems of poor effect and single function of existing similar products used in polarized lenses, so as to meet the needs of customers. The needs of the eyewear industry

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0020] Add 100ml of ethanol into a 1000ml four-necked bottle equipped with a thermometer, dropping funnel, condenser, and stirring device, start stirring, and then add 250ml of monomethyltriethoxysilane, 25ml of dimethyldiethoxysilane, tetraethyl After adding 40ml of oxysilane and 5ml of acetic acid, start to heat up. When the temperature rises to 60°C, start to add 200ml of deionized water dropwise, finish adding in half an hour, maintain at 70°C for half an hour, add 10% silicone-modified acrylate isopropanol solution, heat up to 80°C for co-hydrolysis and polycondensation reaction, Hold for 1 hour, add desolvation, stop heating and start cooling when the solid content reaches 50±2%. At the same time, a mixed solvent based on propylene glycol methyl ether was added to dilute to a solid content of 20%, an appropriate amount of polyether-modified siloxane was added, stirred for 4 hours, and filtered with a 1 μ precision filter, which was used as component A.

[0021] Add 150m...

example 2

[0025] Add 100ml of ethanol into a 1000ml four-necked bottle equipped with a thermometer, dropping funnel, condenser, and stirring device, start stirring, and then add 250ml of monomethyltriethoxysilane, 25ml of dimethyldiethoxysilane, tetraethyl After adding 40ml of oxysilane polymer and 5ml of acetic acid, start to heat up. When the temperature rises to 60°C, start to add 300ml of deionized water dropwise, finish adding in half an hour, maintain at 70°C for half an hour, add 10% silicone modified epoxy resin isopropanol solution, heat up to 80°C for co-hydrolysis and polycondensation reaction , maintained for 1 hour, added desolvation, stopped heating and began to cool when the solid content reached 50±2%. Add a mixed solvent mainly of propylene glycol methyl ether to dilute to a solid content of 20%, add an appropriate amount of polyether-modified siloxane and stir for 4 hours, filter with a 1μ precision filter, and use this as component A.

[0026] Add 150ml of ethanol in...

example 3

[0030] Add 100ml of ethanol into a 1000ml four-necked bottle equipped with a thermometer, dropping funnel, condenser, and stirring device, start stirring, and then add 250ml of monomethyltriethoxysilane, 25ml of dimethyldiethoxysilane, tetraethyl After adding 40ml of oxysilane and 5ml of phosphoric acid, start to heat up. When the temperature rises to 60°C, start to add 200ml of deionized water dropwise, finish adding in half an hour, maintain at 70°C for half an hour, add 10% silicone-modified acrylate isopropanol solution, heat up to 80°C for co-hydrolysis and polycondensation reaction, Hold for 1 hour, add desolvation, stop heating and start cooling when the solid content reaches 50±2%. At the same time, a mixed solvent based on propylene glycol methyl ether was added to dilute to a solid content of 20%, an appropriate amount of polyether-modified siloxane was added, stirred for 4 hours, and filtered with a 1μ precision filter, and this was used as component A.

[0031] Ad...

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PUM

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Abstract

The invention relates to a hardening, anti-ultraviolet and anti-glare multifunctional paint for a polarizer which is designed for solving the technical problem of poor effect of existing like products used in polarized lenses. The paint is prepared by the following steps of: performing a cohydrolysis reaction of a plurality of alkoxysilanes and deionized water under the action of acid catalyst and at a certain temperature to obtain a mixture; adding organosilicon modified acrylic acid or epoxy resin into the mixture to remove a solvent while performing condensation polymerization; adding a component solvent which takes propylene glycol methyl ether as the main component, proper amount of curing agent and polyether modified siloxanes to prepare the organosilicon hardening matrix component; and adding nano-titanium oxide solution which serves as an ultraviolet absorbent into the organosilicon hardening matrix component and adding indium oxide semiconductor nano-particles which have a infrared absorption function, fluorine-contained acrylic acid copolymer, the catalyst and the like into the mixture to obtain the paint. The paint is coated on a polarizer substrate material, has multiple functions such as hardening, ultraviolet protection, glare elimination, water vapor resistance, infrared absorption and the like, and is suitable for sunglasses and safety goggles.

Description

technical field [0001] The invention relates to a polarizer for an optical element or an instrument, and relates to a hardened anti-ultraviolet and anti-glare multifunctional coating for the polarizer. Background technique [0002] As we all know, a polarizer is an optical film composed of multi-layer polymer materials and has the function of generating polarized light. It has important uses in the glasses industry, optical equipment, and display industries. For example, the application number 200910105443.6 published in the Chinese patent literature, the publication date was July 29, 2009, and the invention patent application titled "a reflective anti-glare polarizer, its special coating and its preparation method" is characterized in that it is directly in the The reflective anti-glare coating is coated on the triacetate cellulose (TAC) optical film. The reflective anti-glare coating has anti-glare, hardening, anti-fouling and anti-static functions, which reduces the tradi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D183/12C09D7/12G02B1/10G02B5/30G02B1/14
Inventor 王占雷王岳明
Owner 宁波科乐新材料有限公司
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