CN105670498A - High-performance coating for exhaust pipe and preparation method thereof - Google Patents

Abstract

The invention discloses a high-performance coating for an exhaust pipe and a preparation method thereof. The coating includes the following raw materials, by weight, 20-25 parts of silicone resin, 15-25 parts of a ferric oxide composite, 8-12 parts of carbon, 10-18 parts of manganese, 3-8 parts of sulfur, 6-15 parts of phthalic acid, 2-4 parts of copper, 3-8 parts of mica powder and 3-7 parts of talcum powder, and additives and solvents. IN the invention, the silicone resin and the ferric oxide composite are mixed with a mixture of the carbon, manganese, sulfur and copper, and then the mica powder and the talcum powder are added to improve the high-temperature resistance of the coating. The porous status due to thermal decomposition during the process is improved due to the mica powder and the talcum powder, so that the coating is more stable. The added solvent is high-temperature-resistant and has strong anti-corrosion property. High-temperature-curing silicone resin is employed and has stable chemical properties, strong hydrophobicity and is free of toxicity and irritation on skin, so that the coating is safe and environment-friendly.

Description

A kind of high-performance exhaustor coating and preparation method thereof

Technical field

The present invention relates to exhaustor technical field, be specifically related to a kind of high-performance exhaustor coating and preparation method thereof.

Background technology

High-temperature resistant coating is widely used in the various fields such as automobile, building, metallurgy, manufacturing industry, and in the articles for daily use such as gas-cooker, water heater, electric heater, closely bound up with daily life, commercial production. High-temperature resistant coating makes the function of many products and equipment be given full play to its special performance, becomes indispensable new varieties in coatings industry.

Automobile exhaust pipe is installed in the exhaustor between engine exhaust branch pipe and acoustic filter, and making whole gas extraction system is Flexible spacecraft, thus playing vibration and noise reducing, the convenient effect installed and extend the exhausting silencer system life-span.

Due to automobile engine and gas extraction system position work under bad environment, at high temperature one there is oxide etch, and temperature the improving constantly along with efficiency during discharge duct work, temperature is also more and more higher, can reach 500～600 DEG C. The coating performance of discharge duct protective coating declines along with the increase of temperature, and under the washing away of high-temperature fuel gas stream, adhesive force and weatherability are deteriorated, and accelerate the corrosion failure of pipeline. Present discharge duct protective coating is mainly based on high-temperature resistant silicone class coating; at high temperature organic siliconresin is easily decomposed; the phenomenons such as air entrapment, slight crack, peeling occur, causes pipeline to get rusty or aoxidize, it is impossible to meet the requirement at present to discharge duct service life. Therefore, the resistance to elevated temperatures improving automobile exhaust pipe is particularly important.

Application number be 201310029404.9 Chinese patent disclose a kind of exhaust duct of diesel engine high-temperature coatings, being made up of long-chain polyphosphoric acid, aluminium hydroxide, chromic anhydride, zinc phosphate, ferrum oxide compound, mica powder and distilled water, this coating stability at high temperature needs to be improved further. Application number be 200910070763.2 Chinese patent disclose a kind of special high-temperature resistant coating for transport vehicle and preparation method thereof, it is made up of fire resistant resin, dispersant, anti-settling agent, extender pigment, high-temperature resisting pigment, organic solvent and amino resins, this coating DeGrain in heat-resistant experiment, less stable, is unfavorable for extending the life-span of exhaustor.

Summary of the invention

For solving the problems referred to above, the invention provides a kind of high-performance exhaustor coating and preparation method thereof.

For achieving the above object, the technical scheme that the present invention takes is:

A kind of high-performance exhaustor coating and preparation method thereof, is prepared from including by the raw material of following weight portion:

Silicone resin 20～25 parts, ferrum oxide compound 15～25 parts, 8～12 parts of carbon, 10～18 parts of manganese, sulfur 3～8 parts, phthalic acid 6～15 parts, copper 2～4 parts, mica powder 3～8 parts, Pulvis Talci 3～7 parts, auxiliary agent and solvent.

Further, comprise the steps:

S1, to weigh a certain amount of silicone resin 20～25 parts, ferrum oxide compound 15～25 parts, 8～12 parts of carbon, 10～18 parts of manganese, sulfur 3～8 parts, phthalic acid 6～15 parts, copper 2～4 parts, mica powder 3～8 parts, Pulvis Talci 3～7 parts, auxiliary agent and solvent standby, first in smelting furnace, addition carbon, manganese, sulfur, copper carry out high-temperature heating melting, obtain hybrid metal liquid

S2, first silicone resin, ferrum oxide compound, mica powder and the Pulvis Talci of adding in the stove fill hybrid metal liquid are heated stirring, and obtain mixture, are stirred operation after standing again, and stirring extremely uniformly gets final product high-temperature resistant coating mixture;

S3, by gained high-temperature resistant coating mixture in step S2 by checking, fill and warehouse-in;

Further, in described step S1, smelting temperature is 1000～1200 DEG C, smelting time 1～2h;

Further, in described step S2, stir speed (S.S.) is 600～1200r/min, and the time is 15-44 minute.

Further, in described step S2, time of repose is 12 hours.

Further, in described step S2, whipping temp is 55～110 DEG C.

Further, described solvent is the one of styrene, perchloroethylene, trichloro ethylene, ethylene glycol ether or triethanolamine.

Further, described auxiliary agent is modified amine curing agent.

The present invention is by silicone resin, ferrum oxide compound and carbon, manganese, sulfur, copper mixture is after mixing, add mica powder and Pulvis Talci, enhance the resistance to elevated temperatures of coating, the porous state stayed because of thermal decomposition in preparation process improves due to mica powder and talcous addition, make coating more stable, add solvent and possess high temperature resistant, the feature that corrosion resistance is strong, the stability of coating material can be improved simultaneously, safety and environmental protection, silicone resin material selection hot setting silicone resin, there is stable chemical nature, hydrophobicity is strong, to skin avirulence, the advantages such as nonirritant, and the coating material that hot setting silicone resin is made is also equipped with high temperature resistant, the feature that corrosion resistance is strong, the stability of coating material can be improved simultaneously, safety and environmental protection, auxiliary agent is adopted as modified amine curing agent, and functionalization can realize potion multipotency, and namely a kind of auxiliary agent has several function concurrently, for selecting and technique all brings convenience, its prominent feature be almost tasteless, viscosity is very low. there is solidification, toughness reinforcing, dilution, extend the several functions such as working life, as firming agent, solidfied material can be made to have higher thermostability, anti-flammability, ablation resistance and excellent electric property.

Detailed description of the invention

In order to make objects and advantages of the present invention clearly understand, below in conjunction with embodiment, the present invention is further elaborated. Should be appreciated that specific embodiment described herein is only in order to explain the present invention, is not intended to limit the present invention.

The present invention includes being prepared from by the raw material of following weight portion: be prepared from by the raw material of following weight portion:

Silicone resin 20～25 parts, ferrum oxide compound 15～25 parts, 8～12 parts of carbon, 10～18 parts of manganese, sulfur 3～8 parts, phthalic acid 6～15 parts, copper 2～4 parts, mica powder 3～8 parts, Pulvis Talci 3～7 parts, auxiliary agent and solvent.

A kind of high-performance exhaustor coating and preparation method thereof, comprises the steps:

S1, to weigh a certain amount of silicone resin 20～25 parts, ferrum oxide compound 15～25 parts, 8～12 parts of carbon, 10～18 parts of manganese, sulfur 3～8 parts, phthalic acid 6～15 parts, copper 2～4 parts, mica powder 3～8 parts, Pulvis Talci 3～7 parts, auxiliary agent and solvent standby, first in smelting furnace, addition carbon, manganese, sulfur, copper carry out high-temperature heating melting, obtain hybrid metal liquid

S2, first silicone resin, ferrum oxide compound, mica powder and the Pulvis Talci of adding in the stove fill hybrid metal liquid are heated stirring, and obtain mixture, are stirred operation after standing again, and stirring extremely uniformly gets final product high-temperature resistant coating mixture;

S3, by gained high-temperature resistant coating mixture in step S2 by checking, fill and warehouse-in;

In described step S1, smelting temperature is 1000～1200 DEG C, smelting time 1～2h;

In described step S2, stir speed (S.S.) is 600～1200r/min, and the time is 15-44 minute.

In described step S2, time of repose is 12 hours.

In described step S2, whipping temp is 55～110 DEG C.

Described solvent is the one of styrene, perchloroethylene, trichloro ethylene, ethylene glycol ether or triethanolamine.

Described auxiliary agent is modified amine curing agent.

Embodiment 1:

S1, to weigh a certain amount of silicone resin 23 parts, ferrum oxide compound 19 parts, 11 parts of carbon, 16 parts of manganese, sulfur 5 parts, phthalic acid 8 parts, copper 3 parts, mica powder 5 parts, Pulvis Talci 4 parts, auxiliary agent and solvent standby, first in smelting furnace, addition carbon, manganese, sulfur, copper carry out high-temperature heating melting, obtain hybrid metal liquid

S2, first silicone resin, ferrum oxide compound, mica powder and the Pulvis Talci of adding in the stove fill hybrid metal liquid are heated stirring, and obtain mixture, are stirred operation after standing again, and stirring extremely uniformly gets final product high-temperature resistant coating mixture;

S3, by gained high-temperature resistant coating mixture in step S2 by checking, fill and warehouse-in;

In described step S1, smelting temperature is 1000 DEG C, smelting time 1h;

In described step S2, stir speed (S.S.) is 600r/min, and the time is 19 minutes.

In described step S2, time of repose is 12 hours.

In described step S2, whipping temp is 55 DEG C.

Described solvent is perchloroethylene.

Described auxiliary agent is modified amine curing agent.

Embodiment 2:

S1, to weigh a certain amount of silicone resin 25 parts, ferrum oxide compound 25 parts, 12 parts of carbon, 18 parts of manganese, sulfur 8 parts, phthalic acid 15 parts, copper 2 parts, mica powder 3 parts, Pulvis Talci 3 parts, auxiliary agent and solvent standby, first in smelting furnace, addition carbon, manganese, sulfur, copper carry out high-temperature heating melting, obtain hybrid metal liquid

S2, first silicone resin, ferrum oxide compound, mica powder and the Pulvis Talci of adding in the stove fill hybrid metal liquid are heated stirring, and obtain mixture, are stirred operation after standing again, and stirring extremely uniformly gets final product high-temperature resistant coating mixture;

S3, by gained high-temperature resistant coating mixture in step S2 by checking, fill and warehouse-in;

In described step S1, smelting temperature is 1200 DEG C, smelting time 1h;

In described step S2, stir speed (S.S.) is 1200r/min, and the time is 15 minutes.

In described step S2, time of repose is 12 hours.

In described step S2, whipping temp is 110 DEG C.

Described solvent is styrene.

Described auxiliary agent is modified amine curing agent.

Embodiment 3:

S1, to weigh a certain amount of silicone resin 20 parts, ferrum oxide compound 15 parts, 8 parts of carbon, 10 parts of manganese, sulfur 8 parts, phthalic acid 6 parts, copper 2 parts, mica powder 3 parts, Pulvis Talci 3 parts, auxiliary agent and solvent standby, first in smelting furnace, addition carbon, manganese, sulfur, copper carry out high-temperature heating melting, obtain hybrid metal liquid

S2, first silicone resin, ferrum oxide compound, mica powder and the Pulvis Talci of adding in the stove fill hybrid metal liquid are heated stirring, and obtain mixture, are stirred operation after standing again, and stirring extremely uniformly gets final product high-temperature resistant coating mixture;

S3, by gained high-temperature resistant coating mixture in step S2 by checking, fill and warehouse-in;

In described step S1, smelting temperature is 1000 DEG C, smelting time 1h;

In described step S2, stir speed (S.S.) is 600r/min, and the time is 15 minutes.

In described step S2, time of repose is 12 hours.

In described step S2, whipping temp is 55 DEG C.

Described solvent is the one of styrene, perchloroethylene, trichloro ethylene, ethylene glycol ether or triethanolamine.

Described auxiliary agent is modified amine curing agent.

The present invention is by silicone resin, ferrum oxide compound and carbon, manganese, sulfur, copper mixture is after mixing, add mica powder and Pulvis Talci, enhance the resistance to elevated temperatures of coating, the porous state stayed because of thermal decomposition in preparation process improves due to mica powder and talcous addition, make coating more stable, add solvent and possess high temperature resistant, the feature that corrosion resistance is strong, the stability of coating material can be improved simultaneously, safety and environmental protection, silicone resin material selection hot setting silicone resin, there is stable chemical nature, hydrophobicity is strong, to skin avirulence, the advantages such as nonirritant, and the coating material that hot setting silicone resin is made is also equipped with high temperature resistant, the feature that corrosion resistance is strong, the stability of coating material can be improved simultaneously, safety and environmental protection, auxiliary agent is adopted as modified amine curing agent, and functionalization can realize potion multipotency, and namely a kind of auxiliary agent has several function concurrently, for selecting and technique all brings convenience, its prominent feature be almost tasteless, viscosity is very low. there is solidification, toughness reinforcing, dilution, extend the several functions such as working life, as firming agent, solidfied material can be made to have higher thermostability, anti-flammability, ablation resistance and excellent electric property.

The above is only the preferred embodiment of the present invention; it should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention; can also making some improvements and modifications, these improvements and modifications also should be regarded as protection scope of the present invention.

Claims (8)

1. a high-performance exhaustor coating, it is characterised in that include being prepared from by the raw material of following weight portion:

Silicone resin 20～25 parts, ferrum oxide compound 15～25 parts, 8～12 parts of carbon, 10～18 parts of manganese, sulfur 3～8 parts, phthalic acid 6～15 parts, copper 2～4 parts, mica powder 3～8 parts, Pulvis Talci 3～7 parts, auxiliary agent and solvent.

2. the preparation method of a high-performance exhaustor coating, it is characterised in that comprise the steps:

S1, to weigh a certain amount of silicone resin 20～25 parts, ferrum oxide compound 15～25 parts, 8～12 parts of carbon, 10～18 parts of manganese, sulfur 3～8 parts, phthalic acid 6～15 parts, copper 2～4 parts, mica powder 3～8 parts, Pulvis Talci 3～7 parts, auxiliary agent and solvent standby, first in smelting furnace, addition carbon, manganese, sulfur, copper carry out high-temperature heating melting, obtain hybrid metal liquid

S2, first silicone resin, ferrum oxide compound, mica powder and the Pulvis Talci of adding in the stove fill hybrid metal liquid are heated stirring, and obtain mixture, are stirred operation after standing again, and stirring extremely uniformly gets final product high-temperature resistant coating mixture;

S3, by gained high-temperature resistant coating mixture in step S2 by checking, fill and warehouse-in.

3. the preparation method of a kind of high-performance exhaustor coating according to claim 2, it is characterised in that in described step S1, smelting temperature is 1000～1200 DEG C, smelting time 1～2h.

4. the preparation method of a kind of high-performance exhaustor coating according to claim 2, it is characterised in that in described step S2, stir speed (S.S.) is 600～1200r/min, and the time is 15-44 minute.

5. the preparation method of a kind of high-performance exhaustor coating according to claim 2, it is characterised in that in described step S2, time of repose is 12 hours.

6. the preparation method of a kind of high-performance exhaustor coating according to claim 2, it is characterised in that in described step S2, whipping temp is 55～110 DEG C.

7. the preparation method of a kind of high-performance exhaustor coating according to claim 2, it is characterised in that described solvent is the one of styrene, perchloroethylene, trichloro ethylene, ethylene glycol ether or triethanolamine.

8. the preparation method of a kind of high-performance exhaustor coating according to claim 2, it is characterised in that described auxiliary agent is modified amine curing agent.