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Non-sintered infrared radiation material and preparation method thereof

An infrared radiation, non-sintering technology, applied in the direction of sustainable waste treatment, solid waste management, coating, etc., can solve the problems of accelerating LED aging, reducing color cast of LED light output, etc., achieving low cost, good heat dissipation effect, and preparation The effect of simple method

Active Publication Date: 2013-06-12
江苏百代节能建材有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Generally speaking, 75% to 85% of the power consumption of LEDs is finally converted into heat energy. Excessive heat will reduce the light output of LEDs and produce color cast, which will accelerate the aging of LEDs.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026]1. First compound the selected red brick powder and manganese oxide. According to the mass ratio, the proportion of each component is:

[0027] Red brick powder 70g, manganese oxide 30g;

[0028] 2. Mix the above powder in a vibrating mixer for 15-20 minutes, so that all kinds of raw materials can be mixed together evenly, and then crushed to 325 mesh micro powder for later use;

[0029] 3. The synthesized normal-temperature far-infrared ceramic powder was added with 20 g of polyester modified silicone resin as a binder and 2 g of organobentonite as a thickener to form an infrared coating.

Embodiment 2

[0031] 1. First, compound the selected red brick powder, electrostatic precipitator fine powder, and manganese oxide. According to the mass ratio, the proportion of each component is:

[0032] Red brick powder 50g, electrostatic precipitator fine powder 20g, manganese oxide 30g;

[0033] 2. Mix the above powder in a vibrating mixer for 15-20 minutes, so that all kinds of raw materials can be mixed together evenly, and then crushed to 325 mesh micro powder for later use;

[0034] 3. The synthesized normal-temperature far-infrared ceramic powder was added with 20 g of polyester modified silicone resin as a binder and 2 g of organobentonite as a thickener to form an infrared coating.

Embodiment 3

[0036] 1. First, compound the selected red brick powder, electrostatic precipitator fine powder, nickel oxide, manganese oxide, cobalt oxide, and copper oxide. According to the mass ratio, the proportion of each component is:

[0037] Red brick powder 40g, electrostatic precipitator fine powder 20g, nickel oxide 10g, manganese oxide 10g, cobalt oxide 5g, copper oxide 5g;

[0038] 2. Mix the above powder in a vibrating mixer for 15-20 minutes, so that all kinds of raw materials can be mixed together evenly, and then crushed to 325 mesh micro powder for later use;

[0039] 3. The synthesized normal-temperature far-infrared ceramic powder was added with 20 g of polyester modified silicone resin as a binder and 2 g of organobentonite as a thickener to form an infrared coating.

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PUM

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Abstract

The invention discloses a non-sintered infrared radiation material and a preparation method thereof; the material is mainly prepared by the following steps: selecting any two or more raw materials of red brick powder, electrostatic precipitation fine powder, nickel oxide, manganese oxide, cobalt oxide, and copper oxide, mixing the raw materials according to certain amounts by weight, and adding an adjunct adhesive and a thickening agent; the preparation method of the invention is simple, has low cost, and the obtained product has better heat radiation effect than materials prepared by the prior art.

Description

technical field [0001] The invention relates to a non-sintering infrared radiation material and a preparation method thereof. Background technique [0002] Infrared radiation is customarily called infrared or infrared, also known as thermal radiation. As early as 1800, British astronomer W. Herschel accidentally discovered this kind of infrared rays with strong radiative heating effect when he was studying the thermal effect of different colored parts of sunlight. Since then, it has taken more than one hundred years to understand the nature of infrared radiation and establish the basic radiation law, which has led to the rapid development of the application and research of infrared radiation. [0003] Infrared radiation heating technology was introduced into my country in the late 1970s, and its development and application work developed in a spiral manner. First of all, extensive research and application have been carried out on the application effect of low-temperature e...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C09D5/00
CPCC04B26/32Y02W30/91C04B14/30C04B14/309C04B18/08C04B18/16C04B20/0076C04B40/0028C04B40/0067C04B2103/44C04B14/104
Inventor 秦如新
Owner 江苏百代节能建材有限公司