CN104087058A - Far infrared nanomaterial with energy-saving function for coating - Google Patents

Abstract

The invention relates to a far infrared nanomaterial with an energy-saving function for a coating. The far infrared nanomaterial comprises the following components in parts by weight: 15-25 parts of alpha-aluminum oxide, 25-40 parts of silicon dioxide, 40-60 parts of zirconium silicate, 20-30 parts of magnesium oxide, 2-9 parts of tourmaline mineral micropowder, 3-9 parts of inorganic filler, and 25-30 parts of flame retardant. The far infrared nanomaterial can be used for the kitchen coating and can be used for saving the usage amount of gas and natural gas, and has the advantages of being convenient to use, permanent to use, and the like.

Description

A kind of coating nano far-infrared material with power saving function

Technical field

The present invention relates to a kind of coating nano far-infrared material with power saving function, belong to field of nanometer material technology.

Background technology

In China, the ownership level of Energy resources is but very low per capita, and the relative developed country of energy utilization level of China is comparatively backward on the other hand, and a large amount of wastes that this just means the valuable energy have brought serious pollution to environment simultaneously.It is the problem that we pay close attention to that how abundant, reasonable, saving utilizes the energy.

Far infrared rays is electromagnetic a kind of, on whole spectrum, its wavelength is greater than visible ray, it is a kind of hertzian wave with thermal radiation effect, in recent years, line outside line far away has been utilized beyond the thermal source as industry heating, range of application expands day by day, and the outer line products of quick and mass-produced line far away has become the favorite of save energy.

Patent CN100357365 discloses a kind of preparation method of high infrared radiance energy saving paint, and this material granule granularity only 300 orders is sieved, and application ferric oxide makes the color of powder for red, and its far-infrared radiation rate is general.

But there is the problems such as quality is unstable, use is complicated, action effect is weak in current far-infrared material, is badly in need of a kind of coating nano far-infrared material with power saving function of exploitation.

Summary of the invention

The invention provides a kind of coating nano far-infrared material with power saving function, this nano far-infrared material comprises by weight:

α-aluminium sesquioxide 15-25,

Silicon-dioxide 25-40,

Zirconium silicate 40-60,

Magnesium oxide 20-30,

The brilliant ore deposit of tourmalinite micro mist 2-9 part,

Mineral filler 3-9 part,

Fire retardant 25-30 part.

Preferably, described nano far-infrared material is mixture of multi-elements ultra-fine micropowder, mean particle size≤0.5 micron.

Preferably, described mineral filler is one or more in coarse whiting, fine particle calcium carbonate and pure aluminium silicate.

Preferably, described fire retardant is one or more in hydrosilicate ore, forsterite, brucite, quartzite and wollastonite.

Nano far-infrared material of the present invention can be used for can saving in kitchen range coating the consumption of coal gas, Sweet natural gas, the advantage such as meanwhile, that the present invention has is easy to use, can forever use.

Embodiment

Below by specific embodiment, the present invention is described in detail, but the content of describing should not be considered as limitation of the present invention, and any change and the modification according to inventive concept, made, should be considered as belonging to protection scope of the present invention.

Embodiment 1

A coating nano far-infrared material with power saving function, this nano far-infrared material comprises by weight:

α-aluminium sesquioxide 15,

Silicon-dioxide 25,

Zirconium silicate 40,

Magnesium oxide 20,

The brilliant ore deposit of tourmalinite micro mist 2,

Coarse whiting 3,

Forsterite 25.

Embodiment 2

A coating nano far-infrared material with power saving function, this nano far-infrared material comprises by weight:

α-aluminium sesquioxide 15,

Silicon-dioxide 25,

Zirconium silicate 40,

Magnesium oxide 20,

The brilliant ore deposit of tourmalinite micro mist 2,

Fine particle calcium carbonate 3,

Quartzite 25,

Wherein said nano far-infrared material is mixture of multi-elements ultra-fine micropowder, and mean particle size is 0.5 micron.

Embodiment 3

A coating nano far-infrared material with power saving function, this nano far-infrared material comprises by weight:

α-aluminium sesquioxide 20,

Silicon-dioxide 30,

Zirconium silicate 50,

Magnesium oxide 25,

The brilliant ore deposit of tourmalinite micro mist 5,

Pure aluminium silicate 6,

Wollastonite 25,

Wherein, described nano far-infrared material is mixture of multi-elements ultra-fine micropowder, mean particle size≤0.5 micron.

Embodiment 4

A coating nano far-infrared material with power saving function, this nano far-infrared material comprises by weight:

α-aluminium sesquioxide 25,

Silicon-dioxide 40,

Zirconium silicate 60,

Magnesium oxide 30,

The brilliant ore deposit of tourmalinite micro mist 9,

Mineral filler 9,

Fire retardant 30,

Wherein, described nano far-infrared material is mixture of multi-elements ultra-fine micropowder, mean particle size≤0.5 micron;

Described mineral filler is the mixture of coarse whiting and fine particle calcium carbonate;

Described fire retardant is hydrosilicate ore.

Embodiment 5

A coating nano far-infrared material with power saving function, this nano far-infrared material comprises by weight:

α-aluminium sesquioxide 15,

Silicon-dioxide 40,

Zirconium silicate 60,

Magnesium oxide 20,

The brilliant ore deposit of tourmalinite micro mist 2,

Pure aluminium silicate 9,

Brucite 30.

Embodiment 6

A coating nano far-infrared material with power saving function, this nano far-infrared material comprises by weight:

α-aluminium sesquioxide 25,

Silicon-dioxide 25,

Zirconium silicate 60,

Magnesium oxide 20,

9 parts of the brilliant ore deposit of tourmalinite micro mists,

9 parts of mineral fillers,

30 parts of fire retardants,

Wherein, described nano far-infrared material is mixture of multi-elements ultra-fine micropowder, mean particle size≤0.5 micron;

Described mineral filler is the mixture of coarse whiting, fine particle calcium carbonate and pure aluminium silicate;

Described fire retardant is the mixture of quartzite and wollastonite.

Claims (4)

1. a coating nano far-infrared material with power saving function, is characterized in that, this nano far-infrared material comprises by weight:

α-aluminium sesquioxide 15-25,

Silicon-dioxide 25-40,

Zirconium silicate 40-60,

Magnesium oxide 20-30,

The brilliant ore deposit micro mist 2-9 of tourmalinite,

Mineral filler 3-9,

Fire retardant 25-30.

2. the coating nano far-infrared material with power saving function according to claim 1, is characterized in that described nano far-infrared material is mixture of multi-elements ultra-fine micropowder, mean particle size≤0.5 micron.

3. the coating nano far-infrared material with power saving function according to claim 1, is characterized in that, described mineral filler is one or more in coarse whiting, fine particle calcium carbonate and pure aluminium silicate.

4. the coating nano far-infrared material with power saving function according to claim 1, is characterized in that, described fire retardant is one or more in hydrosilicate ore, forsterite, brucite, quartzite and wollastonite.