Nano-far infrared superconducting composite material

A composite material and far-infrared technology, applied in the field of far-infrared energy materials and broad-spectrum far-infrared materials, can solve the problems of high cost, large energy consumption, and large energy consumption

Inactive Publication Date: 2014-08-20
鹤山市龙腾科技有限公司
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  • Summary
  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

It is different from the patent No.: 200610033867.2 "a nanometer far-infrared material", which is a specific wavelength of far-infrared emission material, which must consume a lot of energy, high cost, and complicated to manufacture
It is also diffe

Method used

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Examples

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Embodiment Construction

[0012] Example 1: A nanometer far-infrared superconducting composite material, which is composed of the following raw materials in parts by weight: zirconium silicate (800 mesh) 44%, titanium dioxide (≤100nm) 24%, Inner Mongolia lanthanide rare earths (≤100nm) 5%, oxide Cobalt (800 mesh ~ 1200 mesh) 5%, C 60 Fullerene (20nm~100nm) 6%, Guangxi tourmaline (800 mesh~2500 mesh) 16%. The above six materials are mixed in a ball mill for 1 hour to become a nanometer far-infrared superconducting composite material for agricultural planting, seedling breeding and irrigation.

[0013] Example 2: A nanometer far-infrared superconducting composite material used in agricultural aquatic products and poultry breeding, which consists of the following parts by weight:

[0014] Zirconium aluminate (800 mesh) 55%, titanium dioxide (≤100nm) 25%, Inner Mongolia lanthanide rare earth (≤100nm) 5%, cobalt oxide (800 mesh ~ 1200 mesh) 3%, C 60 Fullerene (20nm~100nm) 5%, Guangxi tourmaline (800 me...

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PUM

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Abstract

The invention discloses a nano-far infrared superconducting composite material, which is prepared by subjecting 40%-60% of zirconium aluminate (800 meshes), 20%-30% of titanium dioxide (with a nanoscale of less than or equal to 100nm), 3%-8% of Inner Mongolia lanthanide rare earth (with a nanoscale of less than or equal to 100nm), 3%-6% of cobalt oxide (800 meshes-1200 meshes), 5%-10% of C60 fullerene (20nm-100nm), and 10%-20% of Guangxi tourmaline (1800 meshes-2500 meshes) to ball-milling mixing for 1h in a ball mill. The invention aims to provide a simple process of a new material, which has no energy consumption and is convenient for mass popularization. And the broad spectrum far infrared rays emitted by the material are suitable for application in most occasions.

Description

technical field [0001] The invention belongs to the field of functional far-infrared materials, and specifically relates to a far-infrared energy material with multiple emission peaks, a broad-spectrum far-infrared material that is added with nano-scale materials and superconducting materials, and free from composite crystallization, and can be used at room temperature. The emissivity is high, reaching above 0.82, and it is stable for a long time. Background technique [0002] In nature, there are many metal oxides, nitrides, and borides, all of which have good far-infrared emission characteristics. After they are mixed, they can produce a broad-spectrum far-infrared emission band. Adding C 60 ~C 70 After the carbon atom group, its far-infrared emission performance has been further changed, and it has become a sinter-free nanometer far-infrared superconducting composite material. It is different from the patent No.: 200610033867.2 "a nanometer far-infrared material", the ...

Claims

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Application Information

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IPC IPC(8): C04B35/44
Inventor 胡锦耀
Owner 鹤山市龙腾科技有限公司
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