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Far infrared Nixing pottery product and preparation method thereof

A technology of far-infrared and pottery products, applied to clay products, other household utensils, household utensils, etc., can solve the problems of long process, poor dispersion, high cost, etc., and achieve the effect of simple process, low cost and good product quality

Inactive Publication Date: 2010-10-20
李建洪
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the process is long, the energy consumption is large, and the cost is high.
Although the latter is simple in process and low in cost, it is not a compound with high emissivity that can only be synthesized at high temperature, and its volume changes at higher temperature and its dispersion is poor.

Method used

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  • Far infrared Nixing pottery product and preparation method thereof
  • Far infrared Nixing pottery product and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] Raw material formula and parts by weight for making domestic far-infrared clay pottery products: clay pottery is 80, Cr 2 o 3 1, MnO 2 6, ZrO 2 1 for clay and 12 for clay.

[0033] Production method: mix the raw materials of the formula according to the ratio, dry them in a vacuum roller dryer at a controlled temperature of 75°C, then put them into a ball mill for ball milling, sieve them in a 180-mesh sieve machine, and put them into a high-temperature electric furnace after mixing and molding In the process, first dry at a temperature of 160-200°C for 1 hour, and then slowly heat up and bake at a temperature of 1000-1050°C for 5 hours to obtain various types of far-infrared clay pottery products for daily use that emit 12 μm wavelength.

Embodiment 2

[0035] Raw material formula and parts by weight for making far-infrared clay pottery products for medical treatment and health care: clay pottery is 80, Cr 2 o 3 1, MnO 2 10, ZrO 2 4 for clay and 5 for clay.

[0036] Production method: mix the raw materials of the formula according to the ratio, dry them in a vacuum roller dryer at a controlled temperature of 90°C, then put them into a ball mill for ball milling, sieve them in a 100-mesh sieve machine, and put them in after kneading, molding and demoulding. Put it into a high-temperature electric furnace, first dry it at a temperature of 100-130°C for 1.5 hours, then slowly raise the temperature and bake it at a temperature of 1100-1200°C for 2 hours, and after cooling, you can get medical and protective far-infrared clay with a wavelength of 23μm. products.

Embodiment 3

[0038] The raw material formula and parts by weight of the far-infrared clay pottery powder used for glazing: the clay pottery is 85, Cr 2 o 3 2, MnO 2 6, ZrO 2 2 for clay and 5 for clay.

[0039] Production method: The raw materials of the formula are mixed according to the proportion and dried in a vacuum roller dryer at a controlled temperature of 80°C, then put into a ball mill for ball milling, sieved through a 200-mesh sieve, and then put into a high-temperature roasting furnace after mixing and molding , heating up at 1150-1200°C and roasting for 2 hours, after cooling, pulverize and sieve through a 400-mesh sieve to obtain far-infrared clay pottery powder for glazing that emits a wavelength of 22 μm.

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Abstract

The invention discloses a far infrared Nixing pottery product and a preparation method thereof. The far infrared Nixing pottery finished product, far infrared Nixing pottery powder and far infrared Nixing pottery slurry is prepared by adding the metal oxides Cr2O3, MgO, MnO2 and ZrO2 and other compounds serving as auxiliary raw materials into Nixing pottery which is made in Qinzhou, Guangxi, and has the advantages of more cheap chemical components, high content and high quality and serves as a main raw material and roasting the mixture at the temperature of between 1,000 and 1,200 DEG C in a high-temperature electric furnace or a high-temperature roasting furnace or a high-temperature burning kiln according to the pottery. The far infrared Nixing pottery product transmits a far infrared ray with the wavelength of 6 to 23 mu m at the normal temperature and can be applied to the industry, medical care and living goods in the fields such as medical care, energy conservation and environment protection, building materials, heat insulating materials, water quality improvement, paper making plastic, fiber weaving, food preservation, food roasting, wine making industry, pharmaceutical industry and the like. The preparation method has the advantages of simple process, low energy consumption, low cost, high benefit and good product quality.

Description

Technical field: [0001] The invention relates to the technical field of ceramic materials and products thereof, in particular to a far-infrared clay-based ceramic product and a preparation method thereof. Background technique: [0002] At present, the existing far-infrared ceramic products are made of inorganic minerals, non-metal oxides and metal oxides according to a certain combination, and are scientifically processed. It can emit far-infrared rays with a wavelength of 5-25 μm that are most beneficial to the human body. According to the principle of co-exchange in physics, when far-infrared rays irradiate the human body, these far-infrared rays are easily absorbed by the human body and transmitted to the deeper parts of the skin, where they activate proteins and other biomacromolecules in the human body, allowing them to play a role in regulating the immune function of the body. In addition, these rays have high penetrating power and radiation rate, so they can be absorb...

Claims

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Application Information

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IPC IPC(8): C04B33/00
Inventor 李建洪
Owner 李建洪