CN103342961A - High temperature-resistant insulating paint and preparation method thereof - Google Patents

Abstract

The invention provides a high temperature-resistant insulating paint comprising the following components in parts by weight: 30-40 parts of organic silicon resin, 40-60 parts of filler, 10-45 parts of curing agent, 0-0.1 parts of anti-settling agent, 0-0.5 parts of defoaming agent, and 0-0.3 parts of flatting agent, wherein the organic silicon resin is methyl silicone resin, polyethyl silicone resin or polyaryl organic silicon resin; the quantity ratio of ethyl to silicon atoms in a polyethyl silicone resin polymer is 0.5-1.5; the filler is one or more of monox, zinc oxide, aluminum oxide and mica; the curing agent is polyamide epoxy curing agent. The high temperature-resistant insulating paint disclosed by the invention is strong in heat resistance, good in insulating property and stable in chemical properties, and can be used at the high temperature of over 600 DEG C; the preparation method of the paint is simple.

Description

A kind of high-temperature insulation coating and preparation method thereof

Technical field

The present invention relates to coating, in particular to a kind of high-temperature insulation coating.

Background technology

Power equipment is used numerous in daily life, industrial and agricultural production and aerospace and seafari, the Working environment of power equipment and working conditions also are tending towards variation thereupon, wherein a lot of envrionment conditionss are harsh, so in order to ensure that power equipment can normally move under various special conditionss, just need develop the insulating material that is suitable for various different operating environment and improve the ability that power equipment conforms and the work-ing life that can prolong equipment itself.

At present, the kind of insulating material is a lot, for example insulating bag closure material, insulation paper, insulating plastics, insulation compound etc., and wherein insulation compound is because the preparation method is simple, construction technology is convenient, so insulation compound more and more is used on the every profession and trade insulator arrangement.Because the needs of a lot of hot environments, be important problem in the industry so develop resistant to elevated temperatures insulation compound always.

Summary of the invention

The invention solves deficiency of the prior art, a kind of good stability, the simple high-temperature insulation coating of preparation technology are provided.

Technical scheme of the present invention is: a kind of high-temperature insulation coating, by mass percentage, composed of the following components:

30～40 parts of silicone resins, 40～60 parts of fillers, 10～45 parts of solidifying agent, 0～0.1 portion of anti-settling agent, 0～0.5 part of defoamer, 0～0.3 part of flow agent; Described silicone resin is poly-methyl silicon resin, poly-ethyl silicone resin or poly-aryl silicone resin, and the ethyl number is 0.5～1.5 with the ratio of Siliciumatom number in the described poly-ethyl silicon resin copolymer; Described filler is one or more in silicon oxide, zinc oxide, aluminum oxide and the mica; Described solidifying agent is daiamid epoxy curing agent.

Preferably, by mass percentage, composed of the following components:

35 parts of silicone resins, 50 parts of fillers, 14.6 parts of solidifying agent, 0.05 portion of anti-settling agent, 0.25 part of defoamer, 0.1 part of flow agent; Described silicone resin is poly-methyl silicon resin, poly-ethyl silicone resin or poly-aryl silicone resin, and the ethyl number is 0.5～1.5 with the ratio of Siliciumatom number in the described poly-ethyl silicon resin copolymer; Described filler is one or more in silicon oxide, zinc oxide, aluminum oxide and the mica; Described solidifying agent is daiamid epoxy curing agent.

Preferably, described anti-settling agent is aerosil, and purpose is to prevent that the filler in the insulation compound from precipitating, and makes insulation compound have certain thixotropy.

Preferably, described defoamer is the organic silicone defoamer, and the organic silicone defoamer claims silicone defoamer again, and purpose is to prevent to produce bubble in the high-temperature insulation coating, in order to avoid influence the quality of high-temperature insulation coating.

Preferably, described flow agent is silicone based flow agent, flow agent can urge high-temperature insulation coating in the drying and forming-film process, form one smooth, smooth, film uniformly, the flow agent that the present invention selects for use is polyether-modified methyl polysiloxane flow agent.

Preferably, prepare a kind of method of high-temperature insulation coating, may further comprise the steps:

(1) organosilicon pre-treatment: fully mix with ammoniacal liquor and organosilicon, place certain hour then, be washed till neutrality with distilled water, except after anhydrating, slough residual less water and ammonia under vacuum state, obtain chloride lessly, electrical property is silicone resin preferably;

(2) coating preparation: with the silicone resin after treatment that obtains in the step (1), according to taking by weighing each component in the prescription, add filler earlier, add auxiliary agent after mixing again, in sand mill, progressively be dispersed to fully, obtain this high-temperature insulation coating.

Preferably, in the described step (1) vacuum pressure of vacuum state be-0.1～-1.5Mpa.

Preferably, disperseing completely in the described step (2), standard is that fineness is below 20 μ m.

The defective that solves prior art of the present invention has following beneficial effect:

1. the present invention selects suitable silicone resin for use, and concrete is poly-methyl silicon resin, poly-ethyl silicone resin or poly-aryl silicone resin, and silicone resin has good thermotolerance, oxidation-resistance, weathering resistance, hydrophobic nature, corona resistance and dielectricity.

2. filler of the present invention is specially in silicon oxide, zinc oxide, aluminum oxide and the mica, add filler and can improve the thermotolerance that silicone insulating coating is filmed effectively, this is because increased the content of inorganic components such as silicon oxide in the insulation compound, improves its thermotolerance; Mica filler is the crystalline thin slice of multilayer, and thin slice is closely folded mutually, can increase the closure of coating paint film, therefore can reduce atomic migration, improves the electrical property under the paint film high temperature.

3. when preparation high-temperature insulation coating of the present invention,, remove chlorine wherein at first with the organosilicon pre-treatment once, this is can influence its electrical property because cl content is too high in the silicone resin, before preparing coating, chlorine is removed.

4. high-temperature insulation coating of the present invention is that a kind of thermotolerance is strong, can under the high temperature more than 600 ℃, use, and good insulation preformance, the high-temperature insulation coating of stable chemical performance, and the preparation method of this coating is simple.

Embodiment

In order to make those skilled in the art person understand the present invention better, and above-mentioned advantage of the present invention can be become apparent more, the present invention is further detailed explanation below in conjunction with specific embodiment.

Embodiment 1

(1) organosilicon pre-treatment: fully mix with ammoniacal liquor and poly-methyl silicon resin, place certain hour then, be washed till neutrality with distilled water, except after anhydrating, regulate pressure and be-0.1～-1.5Mpa sloughs residual less water and ammonia under vacuum state, obtain chloride lessly, electrical property is silicone resin preferably.

(2) coating preparation: with the poly-methyl silicon resin after treatment that obtains in the step (2), each component that takes by weighing according to correspondence in the formula table 1 adds filler earlier, adds auxiliary agent after mixing again, in sand mill, progressively be dispersed to fineness below 20 μ m, obtain this high-temperature insulation coating.

Embodiment 2

(1) organosilicon pre-treatment: fully mix with ammoniacal liquor and poly-ethyl silicone resin, place certain hour then, be washed till neutrality with distilled water, except after anhydrating, regulate pressure and be-0.1～-1.5Mpa sloughs residual less water and ammonia under vacuum state, obtain chloride lessly, electrical property is silicone resin preferably.

(2) coating preparation: with the poly-methyl silicon resin after treatment that obtains in the step (2), each component that takes by weighing according to correspondence in the formula table 1 adds filler earlier, adds auxiliary agent after mixing again, in sand mill, progressively be dispersed to fineness below 20 μ m, obtain this high-temperature insulation coating.

Poly-ethyl silicone resin is the multipolymer that contains ethyl in the siloxane chain in the present embodiment, because the polymerization velocity of poly-ethyl silicone resin is more slow than poly-methyl silicon resin, but the ethyl that Siliciumatom links to each other in the siloxane chain can increase the solubility of resin and reduce its hardness, in order to obtain insoluble not molten poly-ethyl silicone resin, the ethyl number is that 0.5～1.5. is when being lower than 0.5 with ratio the best of Siliciumatom number in the selective polymer, resin polymerization is overrun, in the process of condensation, produce relatively large water, make resin become brittle without solidity solid, at high temperature ftracture easily; When this value was about 1, poly-ethyl silicone resin had favorable elasticity, can form the paint film with adhesive ability; This value is greater than after 1.5, and the content of low molecular product increases in the polymkeric substance, and difficulty is condensed into solid.

Therefore, the ratio of selecting ethyl number and Siliciumatom number in the present embodiment is 0.5～1.5 poly-ethyl silicone resin, and poly-ethyl silicone resin easier and polyester, polyacetal and other organic polymers mix copolymerization mutually than poly-methyl resin.So, more preferably gather the ethyl silicone resin among the present invention.

Embodiment 3

(1) organosilicon pre-treatment: fully mix with ammoniacal liquor and poly-aryl silicone resin, place certain hour then, be washed till neutrality with distilled water, except after anhydrating, regulate pressure and be-0.1～-1.5Mpa sloughs residual less water and ammonia under vacuum state, obtain chloride lessly, electrical property is silicone resin preferably.

(2) coating preparation: with the poly-aryl silicone resin after treatment that obtains in the step (2), each component that takes by weighing according to correspondence in the formula table 1, add filler earlier, add auxiliary agent after mixing again, in sand mill, progressively be dispersed to fineness below 20 μ m, obtain this high-temperature insulation coating.

Poly-aryl silicone resin is the multipolymer that only contains phenyl in the siloxane chain in the present embodiment, has excellent properties such as thermotolerance height, oxidation-resistance be strong.The present invention preferably adopts the organosilane monomer (full phenyl polysiloxane) of trifunctional, have the resistance toheat higher than general resin, because behind the chemical bond rupture on the chain on the resin, be complete on another chain, thereby whole polymkeric substance can also keep its main mechanics, thermomechanical property.

Comparative Examples

According to each component that takes by weighing of correspondence in the formula table 1, in silicone resin, add filler earlier, add auxiliary agent after mixing again, in sand mill, progressively be dispersed to fineness below 20 μ m, obtain this high-temperature insulation coating.

Table 1 formula table unit (%)

Performance test

Carry out performance test with reference to the high-temperature insulation coating for preparing in the embodiment of the invention of GB1981-81, every results of property is as shown in table 2:

Table 2 The performance test results

As above shown in the table, the mechanical integrated performance of the high-temperature insulation coating that makes in the embodiment of the invention and electric integrated performance are all good than the high-temperature insulation coating that makes in the Comparative Examples, and the over-all properties the best among the embodiment 2, therefore, embodiment 2 is most preferred embodiment of the present invention.During high-temperature insulation coating,, remove chlorine wherein at first with the organosilicon pre-treatment once in an embodiment of the present invention, this is can influence its electrical property because cl content is too high in the silicone resin, before preparing coating, chlorine is removed.And in Comparative Examples, to the organosilicon processing that do not dechlorinate, the disruptive strength of high-temperature insulation coating obviously reduces in the Comparative Examples, the electrodeposited coating film unstable properties of coating.

After high-temperature insulation coating toasts through 600 ℃ temperature among the embodiment, its volume specific resistance and disruptive strength all increase, because under the high temperature, oxide filler and silicone resin reaction form the metal siloxane structure, mica filler and silicone resin react, reduce the DeR of organosilicon main chain, improved the thermotolerance of organosilicon fire-resistant insulation compound.

The above; be the specific embodiment of the present invention only, protection scope of the present invention is not limited thereto, and anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain that claim was defined.

Claims (8)

1. a high-temperature insulation coating is characterized in that, and is by mass percentage, composed of the following components:

30～40 parts of silicone resins, 40～60 parts of fillers, 10～45 parts of solidifying agent, 0～0.1 portion of anti-settling agent, 0～0.5 part of defoamer, 0～0.3 part of flow agent; Described silicone resin is poly-methyl silicon resin, poly-ethyl silicone resin or poly-aryl silicone resin, and the ethyl number is 0.5～1.5 with the ratio of Siliciumatom number in the described poly-ethyl silicon resin copolymer; Described filler is one or more in silicon oxide, zinc oxide, aluminum oxide and the mica; Described solidifying agent is daiamid epoxy curing agent.

2. a kind of high-temperature insulation coating according to claim 1 is characterized in that, and is by mass percentage, composed of the following components:

35 parts of silicone resins, 50 parts of fillers, 14.6 parts of solidifying agent, 0.05 portion of anti-settling agent, 0.25 part of defoamer, 0.1 part of flow agent; Described silicone resin is poly-methyl silicon resin, poly-ethyl silicone resin or poly-aryl silicone resin, and the ethyl number is 0.5～1.5 with the ratio of Siliciumatom number in the described poly-ethyl silicon resin copolymer; Described filler is one or more in silicon oxide, zinc oxide, aluminum oxide and the mica; Described solidifying agent is daiamid epoxy curing agent.

3. high-temperature insulation coating according to claim 2 is characterized in that, described anti-settling agent is aerosil.

4. high-temperature insulation coating according to claim 2 is characterized in that, described defoamer is the organic silicone defoamer.

5. high-temperature insulation coating according to claim 2 is characterized in that, described flow agent is silicone based flow agent.

6. prepare the method for each described a kind of high-temperature insulation coating of claim 1-5, it is characterized in that, may further comprise the steps:

(1) organosilicon pre-treatment: fully mix with ammoniacal liquor and organosilicon, place certain hour then, be washed till neutrality with distilled water, except after anhydrating, slough residual less water and ammonia under vacuum state, obtain chloride lessly, electrical property is silicone resin preferably;

(2) coating preparation: with the silicone resin after treatment that obtains in the step (1), according to taking by weighing each component in the prescription, add filler earlier, add auxiliary agent after mixing again, in sand mill, progressively be dispersed to fully, obtain this high-temperature insulation coating.

7. the method for preparing high-temperature insulation coating according to claim 6 is characterized in that, in the described step (1) vacuum pressure of vacuum state be-0.1～-1.5Mpa.

8. the method for preparing high-temperature insulation coating according to claim 6 is characterized in that, disperseing completely in the described step (2), standard is that fineness is below 20 μ m.