CN102531522A - Far infrared efficient energy-saving coating and manufacturing method thereof - Google Patents

Abstract

The invention discloses a far infrared efficient energy-saving coating, and belongs to the technical field of high-temperature resistant far infrared energy-saving coatings. The coating mainly comprises silicon carbide, cobalt oxide, refractory clay, water glass, talcpowder, and one or more of ferrous metal oxides of Co, Ni, Cr, Mn, Ti, Fe and the like. A using method for the coating comprises the following steps of: removing dust from the surface, spraying a pretreatment solution, and spraying the far infrared energy-saving coating. The pretreatment solution is an aqueous solution of the water glass. The coating improves the total amount of radiation; and after the coating is coated on various heated surfaces, the surface temperature can be improved, so that the radiant heat transfer ratio of the heated surfaces is improved, and the aims of improving the heating effect and saving energy are fulfilled.

Description

Energy-efficient coating of a kind of far infrared and method of manufacture thereof

Technical field:

The present invention relates to a kind of coating, energy-efficient coating of particularly a kind of far infrared and preparation method thereof.

Background technology:

Far-infrared heating is a power-saving technology, and its coating is the top coat that is used to produce far-infrared radiation element, because it has good heat-conducting; So can improve the heats of far-infrared radiation element greatly, thereby reach the saving energy, boost productivity; Reduce the purpose of products production cost, how far ultrared paint of the prior art is main raw material with the MOX; With water glass is tackiness agent, when high temperature, exists emittance not high, instability; The coating bonding force is undesirable, and non-refractory has influenced deficiencies such as radiating effect.

The objective of the invention is, energy-efficient coating of a kind of far infrared and preparation method thereof is provided, to overcome above-mentioned deficiency of the prior art; Adopt MOX; The mode that nonmetal oxide combines adds refractory materials simultaneously in prescription, improved the radiant ratio and the resistance to elevated temperatures of coating; Good energy-conserving effect, the scope of application is extensive.

Energy-efficient system component thing of far infrared of the present invention and weight percent content are following:

Silit (SiC) 15%

Powder blue (CoO) 5%

Fireclay 10%

Water glass 35%

Talcum powder 10%

Manganse Dioxide (MnO ₂) 10%

Aluminium sesquioxide (Al ₂O ₃) 5%

Chromium sesquioxide (Cr ₂O ₃) 3%

Red oxide of iron (Fe ₂O ₃) 5%

Nickel oxide (NiO) 2%

More than solid material in each component, fineness is all more than 300 orders.Purity is all more than 90%, and water glass is liquid.

The production technique of the energy-efficient coating of far infrared of the present invention is:

(1) with above-mentioned solid material silit (SiC), powder blue (CoO), fireclay, talcum powder, Manganse Dioxide (MnO ₂), aluminium sesquioxide (Al ₂O ₃), chromium sesquioxide (Cr ₂O ₃), red oxide of iron (Fe ₂O ₃), nickel oxide (NiO) pulverize separately reaches the powder about 300 orders.

(2) get silit (SiC) 15% powder respectively by above-mentioned cooperation, powder blue (CoO) 5% powder, fireclay 10% powder, talcum powder 10% powder, Manganse Dioxide (MnO ₂) 10% powder, aluminium sesquioxide (Al ₂O ₃) 5% powder, chromium sesquioxide (Cr ₂O ₃) 3% powder, red oxide of iron (Fe ₂O ₃) 5% powder, nickel oxide (NiO) 2% powder, thorough mixing.

(3) it is even the mixed powder behind (2) thorough mixing to be joined in 35% the water glass thorough mixing, just obtains coating of the present invention.

The method of use of coating of the present invention be with it with brushing or mode such as spraying, but before using with surperficial deashing spary pretreatment liquid, this far infrared energy-saving coatings of spary again, pretreatment liquid is the aqueous solution of water glass.

Therefore coating of the present invention has higher total radiation rate, has improved total radiation, brushed on the various heating surfaces after, can improve its surface temperature, thereby improve the ratio of its radiative transfer, to reach raising heats, purpose of energy saving.

Coating of the present invention has the equipment of not influencing normally to be used, and improves thermo-efficiency, high temperature resistant, the bonding strength advantages of higher.

Claims (2)

1. energy-efficient coating of far infrared is characterized in that: described coating is mainly by silit, powder blue, fireclay, and water glass and talcum powder are formed, and also will add nickel oxide, chromic oxide, manganese oxide, titanium oxide, one or more in the red stone.

2. the energy-efficient coating of the described a kind of far infrared of claim is characterized in that in described coating, silit (SiC) 15%, and oxidation is bored (CoO) and is accounted for 5%, and fireclay accounts for 10%, and water glass accounts for 35%, and talcum powder accounts for 10%, Manganse Dioxide (MnO ₂) account for 10%, aluminium sesquioxide (Al ₂O ₃) account for 5%, chromium sesquioxide (Cr ₂O ₃) account for 3%, red oxide of iron (Fe ₂O ₃) accounting for 5%, nickel oxide (NiO) accounts for 2%, and above-mentioned each component is solid material except that water glass, and fineness is all more than 300 orders.