Nano composite material capable of increasing production efficiency of far infrared ray and manufacturing method thereof

A technology of nanocomposite materials and far-infrared rays, applied in the field of nanocomposite materials that can increase the efficiency of far-infrared rays and its production, can solve the problems of poor performance of far-infrared rays, difficulty in achieving health care and treatment effects, and low efficacy.

Active Publication Date: 2011-03-30
郭春樱 +1
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

[0005] In recent years, although many operators have applied far-infrared raw materials to various non-metallic fabrics (such as: underwear, elbow pads, waist support, gloves, scarves and jackets, etc.) and non-metallic plastic materials (such as: emulsion, In the production of latex, silica gel and fiber, etc.), these far-infrared raw materials need to be within the range of human body temperature 36.5°C-37.0°C to produce far-infrared rays with the best effect on the human body and the maximum emissivity. However, du

Method used

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  • Nano composite material capable of increasing production efficiency of far infrared ray and manufacturing method thereof
  • Nano composite material capable of increasing production efficiency of far infrared ray and manufacturing method thereof
  • Nano composite material capable of increasing production efficiency of far infrared ray and manufacturing method thereof

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Embodiment Construction

[0025] At present, there are many kinds of substances with far-infrared radiation characteristics. The common far-infrared radiation substances can be roughly divided into the following five types according to their different chemical structures:

[0026] (1) oxides: such as: aluminum oxide (Al 2 o 3 ), zirconia (ZrO 2 ), magnesium oxide (MgO), titanium oxide (TiO 2 ), silicon oxide (SiO 2 )Wait.

[0027] (2) Carbide: such as: zirconium carbide (ZrC), silicon carbide (SiC), boron carbide (B 4 C), tantalum carbide (TaC), etc.

[0028] (3) Borides: such as: titanium boride (TiB 2 ), zirconium boride (ZrB 2 ), chromium boride (CrB 2 )Wait.

[0029] (4) Silicide: such as: titanium silicide (TiSi 2 ), molybdenum silicide (MoSi 2 ), tungsten silicide (WSi 2 )Wait.

[0030] (5) Nitride: such as: silicon nitride (Si 3 N 4 ), titanium nitride (TiN), etc.

[0031] These far-infrared radiating substances are mostly used as oxides, followed by carbides. Therefore, in the fol...

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Abstract

The invention provides a nano composite material capable of increasing the production efficiency of far infrared ray and a manufacturing method thereof. The method comprises the following steps: evenly mixing soluble noble metal compounds, far infrared ray particles, a reducing agent, soluble acryl powder, a soluble adhesive and other components in water to form a mixed solution; drying the mixed solution; and performing mechanical grinding on the material obtained after completely drying the mixed solution to obtain the nano composite material in the invention, wherein noble metal nano particles are evenly and stably attached on the surfaces of the far infrared ray particles in the nano composite material. When the material or a fabric is attached to the human body surface or is arranged close to the human body by a user, namely, the noble metal nano particles are utilized as an efficient energy conversion material to absorb ambient luminous energy and heat energy, the far infrared ray particles are excited to convert the luminous energy and heat energy into far infrared ray and feed back the far infrared ray into the human body, thus warming the partial tissues in the human body to lead the capillaries to expand, and achieving the efficacies and effects of promoting blood circulation and metabolism.

Description

technical field [0001] The present invention relates to a kind of nanocomposite material and its preparation method, especially a kind of nanocomposite material that can make noble metal nanoparticles attach to far-infrared particles. The nanocomposite material is added to non-metallic plastic materials, or When coated on the surface of non-metallic fabrics and attached to the surface of the human body or very close to the human body, the far-infrared particles in it can use noble metal nanoparticles as high-efficiency energy conversion materials to absorb the surrounding light energy and heat energy, and convert Light energy and heat energy are converted into far-infrared rays, which feed back into the human body to achieve the function and effect of promoting blood circulation and metabolism. Background technique [0002] Generally speaking, sunlight can be roughly divided into visible light and invisible light. After visible light is refracted by a prism, it will produce ...

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Application Information

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IPC IPC(8): A61N5/06
Inventor 张文礼
Owner 郭春樱
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