CN104761942A - High temperature resistant far infrared radiation coating - Google Patents

Abstract

The invention discloses a high temperature resistant far infrared radiation coating which is an energy-saving coating with special functions of high temperature resistance, strong radiant power, corrosion resistance and high abrasion resistance. A transition metal element oxide, zirconium oxide and a silicate refractory matter are doped at a high temperature to form a solid solution, so that the impurity level is increased, the infrared radiation coefficient is increased and the corresponding excellent performances such as the heat resistance, the corrosion resistance and the abrasion resistance are kept; the activity of the reactant is increased by mixing a rare earth element oxide (Y2O3) in the coating, the binding force with the matrix is strong and the coating can permeate the matrix to form a transition layer and a coating structure; and the coating can improve the hearth coking phenomenon, reduce the smoke emission, save the energy and prevent the mechanical shock and the thermal shock.

Description

High-temperature-resistant far infrared radiation coating

Technical field

High temperature resistant far-infrared reflection coating is a kind of features energy-saving coatings of high temperature resistant, severe radiation rate, solidity to corrosion and high-wearing feature.

Background technology

Industrial Stoves, burner hearth, boiler, the high temperature of usual burning working temperature more than 1000 DEG C, furnace binding material mainly various refractory materials as high brick brick, clay brick, mould material, ceramic fiber etc., these are the structured material of body of heater, it is again heat preserving and insulating material, also participate in thermal radiation heat exchanging process, their heat-radiating properties and heat-insulating property determine the thermo-efficiency of kiln, make single material be difficult to reach strong construction, high heat retaining property and highly reflective requirement like this.

Summary of the invention

High-temperature-resistant far infrared radiation coating adopts transition element oxide compound and zirconium white, silicate refractory materials, high temperature dopant forms sosoloid, both impurity level was added, improve infrared radiation coefficient, maintain again the performances such as corresponding thermotolerance, erosion resistance, wear resistance, improve bulk strength and the compactness of coating.Especially rare earth oxide (Y ₂o ₃) mix the activity that can improve reactant, also can play the effect of stable coatings structure simultaneously, make coating structure fine and close, protection liner, has well wear-resisting, erosion resistance.High-temperature-resistant far infrared radiation coating can improve the blackness of coating, and make its spectrum range at wavelength 1-15 μm, emittance all more than 0.92, and has carried out stabilization treatment to blackening agent, improves ageing resistance, substantially prolongs coating work-ing life.Strengthen the gas flow of burner hearth, increase the contact rate of burner hearth thermal capacitance sum fuel and oxygen; Strengthening furnace heat transfer coefficient, strengthens heat absorption and the exchange capability of heat of water wall tube; Kind burner hearth coking phenomenon, improves the stability that burner hearth runs; Reduce the discharge of flue gas, saving heat energy.High-temperature-resistant far infrared radiation coating performance is for shown in following table:

Accompanying drawing explanation

Fig. 1 is the proportioning raw materials of high-temperature-resistant far infrared radiation coating.

(1) superfine product chromium sesquioxide (2) high mole of potassium silicate solution (3) Y ²o ³(4) titanium dioxide (5) Manganse Dioxide (6) zirconium white (7) α alchlor (8) carboxymethyl cellulose (9) sterilant (10) dispersion agent (11) stablizer (12) PH conditioning agent (13) silicon carbide (14) sillimanite.

Embodiment

First (1) will become the above fine powder of 500 order by superfine product chromium sesquioxide powder mull, (2) high mole of potassium silicate solution high-speed stirring slaking, stirrer revolution will reach more than 3500/min, stirs more than 30 minutes, and the (2) high mole potassium silicate solution be stirred places slaking in more than 2 hours;

Height mole potassium silicate solution good for slaking is progressively added ground superfine product chromium sesquioxide, Y under the stirring of 3000/min ²o ³, Manganse Dioxide, zirconium white, α alchlor, titanic oxide material, stir and continue to add carboxymethyl cellulose, sterilant, dispersion agent, stablizer, PH conditioning agent after 30 minutes, high-speed stirring again after adding, stirrer revolution will reach more than 4500/min, and churning time both could after 30 minutes.

Claims (2)

1. high-temperature-resistant far infrared radiation coating adopts transition element oxide compound and zirconium white, silicate refractory materials, high temperature dopant forms sosoloid, both impurity level was added, improve infrared radiation coefficient, maintain again the performances such as corresponding thermotolerance, erosion resistance, wear resistance, improve bulk strength and the compactness of coating.

2. rare earth oxide (Y ₂o ₃) mix the activity that can improve reactant, also can play the effect of stable coatings structure, kind burner hearth coking phenomenon, reduces the discharge of flue gas, saving heat energy simultaneously.