Broadband infrared ceramic material with anti-aging function at normal temperature and preparation method thereof

An infrared ceramic and anti-aging technology, applied in the field of broadband infrared ceramic materials, can solve the problems of people's long-term transmission of biological energy and limited human health care functions, and can enhance the body's metabolism and immune functions, improve disease resistance, prevent effects of disease

Active Publication Date: 2012-04-18
SHANGHAI YISHOUKANG MEDICAL APPLIANCES CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the existing infrared ceramic materials have the effect on human health care, the environmental requirement for the far-infrared ceramic material to release energy beneficial to the human body must be at a high temperature such as 300 ° C ~ 400 ° C, that is to say, leave the 300 ℃ ~ 400 ℃ high temperature conditions, at room temperature, the infrared radiation band of the far-infrared ceramic material c

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0045] A. 10.8kg of magnesium-rich silicate ore, 13.5kg of pyrophyllite, 2.7kg of spodumene, 20.25kg of osmanthus gemstone, 13.5kg of reduced alloy iron powder, 10.8kg of praseodymium and neodymium oxide, and 63.45kg of auxiliary material ball clay in the raw material Depending on the melting point and performance of the material, different crushing processes are selected for coarse grinding, fine grinding and ultra-fine grinding, and the grinding is passed through a 350-mesh sieve;

[0046] B. Put the powder obtained in step A into the mixing tank, mix thoroughly with the ratio of powder to water of 58:42, and then add 5.4Kg of dispersant and 10.8Kg of binder (for example, the model is SD-7041B, of course It can also be other models) fully stir evenly to make raw material slurry;

[0047] C. Spray the raw material slurry made in step B into a spray drying granulation tower with a pressure siphon machine or other similar equipment to make solid particles with a water content o...

Embodiment 2

[0053] A. 45.9kg of magnesium-rich silicate ore, 8.1kg of spodumene, 13.5kg of tremolite, 13.5kg of osmanthus gemstone, 8.1kg of reduced alloy iron powder, 6.75kg of praseodymium and neodymium oxide, and 39.15kg of auxiliary material ball clay in the raw material kg, according to the difference in the melting point and performance of the material, select different crushing processes respectively, carry out crushing, coarse grinding, fine grinding and ultra-fine grinding, and pass through a 350 mesh screen after grinding;

[0054] B. Put the powder obtained in step A into the mixing tank, mix thoroughly with the ratio of powder to water of 65:35, then add 5.4Kg of dispersant and 8.1Kg of SD-7041B adhesive and stir well , made into raw material slurry;

[0055] C. Spray the raw material slurry made in step B into the spray drying granulation tower with a pressure siphon machine to make solid particles with a water content less than 3% and a size of 50 to 150 microns;

[0056] D...

Embodiment 3

[0061] A. 81kg of magnesium-rich silicate ore, 4.05kg of pyrophyllite, 13.5kg of ball clay, 13.5kg of spodumene, 10.8kg of tremolite, 6.75kg of laurel gem, 2.7kg of reduced alloy iron powder, praseodymium and neodymium oxide in the raw materials 2.7kg, according to the difference in melting point and performance of the material, choose different crushing processes for crushing, coarse grinding, fine grinding and ultra-fine grinding, and pass through a 350-mesh sieve after grinding;

[0062] B. Put the powder obtained in step A into the mixing tank, mix thoroughly with the ratio of powder to water of 72:28, then add 12.15Kg of dispersant and 1.35Kg of SD-7041B adhesive and stir well to make raw material slurry;

[0063] C. Spray the raw material slurry made in step B into the spray drying granulation tower with a pressure siphon machine to make solid particles with a water content less than 3% and a size of 250 to 350 microns;

[0064] D. Put the solid particles made in step C...

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Abstract

The invention discloses a broadband infrared ceramic material with an anti-aging function at normal temperature and a preparation method thereof. The preparation method is characterized by comprising the following steps of: crushing non-metallic minerals taking magnesium-rich silicate ore, spodumene and Guibao stone as main components, composite rare earth oxides taking praseodymium and neodymiumoxides as main components and reduced alloy iron powder; mixing the crushed powder with auxiliary materials for pulping; spraying and granulating; pressing; and sintering to obtain the broadband infrared ceramic material. The raw materials include the following components in percentage by weight: 8-60% of magnesium-rich silicate ore, 2-10% of spodumene, 5-15% of Guibao stone, 2-10% of reduced alloy iron powder and 2-8% of praseodymium and neodymium oxides; and the auxiliary materials include the following components in percentage by weight: 10-46% of ball clay and 1-8% of bonding agent. The broadband infrared ceramic material can continuously release infrared light beneficial to the human health at the normal temperature lower than 45 DEG C so as to generate a non-thermal biological resonance effect, thereby effectively improving the energy required by cell self-replication and an information transfer mechanism, enhancing activity functions such as organism metabolism and immunity andthe like, improving the disease resistance of human bodies, achieving the purposes of preventing and treating diseases and resisting ageing, and saving energy sources.

Description

technical field [0001] The invention relates to a broadband infrared ceramic material with anti-aging function at normal temperature. technical background [0002] Pursuing health and longevity and enjoying a better life have been the beautiful wishes of human beings since ancient times. However, with the development of modern human civilization and the continuous expansion of urbanization, while enjoying the happiness and satisfaction brought by material civilization, people also suffer from environmental pollution, work pressure, improper diet, living habits, etc. Influenced by adverse factors, the phenomenon of sub-health and chronic diseases of the middle-aged and elderly population is becoming more and more serious. From the perspective of modern life science and biomedicine, the occurrence of most chronic diseases is closely related to premature aging in essence. [0003] So what is the relationship between infrared rays and human life information? According to the ...

Claims

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Application Information

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IPC IPC(8): C22C29/00C22C1/05
Inventor 陈雪迁
Owner SHANGHAI YISHOUKANG MEDICAL APPLIANCES CO LTD
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