CN106336694A - Ultrahigh temperature holding and temperature lowering inorganic material coating - Google Patents

Abstract

An ultrahigh temperature holding and temperature lowering inorganic material coating mainly comprises a dry raw material, and the dry raw material is formed by mixing and stirring 21.5 wt% of dead burned magnesia, 14 wt% of potassium dihydrogen phosphate, 3.5 wt% of borax, 20 wt% of rough perlite, 10 wt% of copper tailings, 5 wt% of titanium dioxide, 5 wt% of waterproof powder, 18.5 wt% of fly ash and 2.5 wt% of magnesium oxide. 55-65% Of the dry raw material and 35-45% of a water liquid are mixed and stirred when used to in order to form the temperature holding and temperature lowering coating, and an ultrahigh temperature pipeline is coated with the coating to form a strong and closed surface layer in order to hold the temperature in the pipeline and lower the temperature outside the pipeline.

Description

Inorganic material superhigh temperature preserving temperature and reducing temperature coating

[technical field]

The present invention is with regard to a kind of preserving temperature and reducing temperature coating, and espespecially one kind is made up of nine kinds of inorganic material, especially suitable For coating superhigh temperature pipeline surface, to maintain channel interior temperature, to maintain pipeline normal operation, And pipeline external temperature can be reduced, safeguard the preserving temperature and reducing temperature coating of safety arround pipeline.

[background technology]

It is all extremely flourishing society of various industries now, often visible in the production plant of various industries set It is equipped with various pipelines, with conveyance fluid (liquid or gas).The fluid that some pipelines are conveyed must because of its characteristic Must could operate in superhigh temperature, refer to that some fluids must could be by smooth delivery of power or competence exertion in superhigh temperature Due effect, up to 600 DEG C of general channel interior temperature can be described as superhigh temperature.And channel interior temperature Why superhigh temperature can be reached, be caused because combustion heating intensification is carried out on operation, therefore superhigh temperature to be reached A lot of energy must be expended, relatively expend production cost.

A great problem is often faced, when heating up to channel interior, channel interior is can be smooth on line operation Running, but pipeline external temperature also can follow intensification simultaneously, leads to the outside context hyperpyrexia of pipeline hard to bear, Simultaneously also because environment hyperpyrexia produces personnel safety's misgivings.Therefore sometimes have on the one hand reduce pipeline outside week Suffer the temperature (blowing radiating or cold air cooling) of environment, have to the internal temperature of combustion heating lift line simultaneously Degree, so causes the dual consuming of the energy, and considerably increases production cost, actually serious loss.

Therefore it is directed to superhigh temperature pipeline, how to maintain (holding) channel interior temperature, reduce pipeline simultaneously again External temperature is it is clear that be important topic.

[content of the invention]

The purpose of the present invention is providing one kind to coat on superhigh temperature pipeline surface, to maintain channel interior temperature Degree, to maintain pipeline normal operation it is possible to reduce pipeline external temperature, to safeguard safety arround pipeline Inorganic material superhigh temperature preserving temperature and reducing temperature coating.

For reaching above-mentioned purpose, the present invention is specifically designed a kind of inorganic material superhigh temperature preserving temperature and reducing temperature coating, main If there being a dry type raw material, this dry type raw material stirs mixed by nine kinds of inorganic material and forms, comprising: a weight Burned magnesium oxide, a potassium dihydrogen phosphate, a Borax, a thick perlite, a bronze medal tailings, a titanium dioxide, one prevent Pigment, a flyash and a magnesium oxide, wherein, the percentage by weight of this dead burned magnesia accounts for total dry type raw material 21.5%；The percentage by weight of this potassium dihydrogen phosphate accounts for the 14% of total dry type raw material；The weight hundred of this Borax Ratio is divided to account for the 3.5% of total dry type raw material；This slightly perlitic percentage by weight account for the 20% of total dry type raw material； The percentage by weight of this copper tailings accounts for the 10% of total dry type raw material；The percentage by weight of this titanium dioxide accounts for total dry type The 5% of raw material；The percentage by weight of this waterproof powder accounts for the 5% of total dry type raw material；The weight percent of this flyash Ratio accounts for the 18.5% of total dry type raw material；The percentage by weight of this magnesium oxide accounts for the 2.5% of total dry type raw material, system Make by dead burned magnesia, potassium dihydrogen phosphate, Borax, thick perlite, copper tailings, titanium dioxide, waterproof powder, Flyash and magnesium oxide mix and blend in addition, that is, consist of dry type raw material.

Above-mentioned inorganic material superhigh temperature preserving temperature and reducing temperature coating, mainly has a dry type raw material, this dry type raw material by Nine kinds of inorganic material mixed stirring composition, comprising: a dead burned magnesia, a potassium dihydrogen phosphate, a Borax, One thick perlite, a bronze medal tailings, a titanium dioxide, a waterproof powder, a flyash and a magnesium oxide, wherein, This dead burned magnesia, potassium dihydrogen phosphate, Borax, thick perlite, copper tailings, titanium dioxide, waterproof powder, powder Coal ash and this magnesium oxide are all preferred with adopting Dry powder state entrance mix and blend.

Above-mentioned inorganic material superhigh temperature preserving temperature and reducing temperature coating, this preserving temperature and reducing temperature coating is by this dry type raw material and one Aqueous mix, and mixed proportion is the percentage by weight of this dry type raw material in total preserving temperature and reducing temperature coating Between 55～65% and this aqueous percentage by weight the 35～45% of total preserving temperature and reducing temperature coating.

Above-mentioned inorganic material superhigh temperature preserving temperature and reducing temperature coating, is first combined into this dry type raw material during use, then should Dry type raw material and aqueous become preserving temperature and reducing temperature coating according to ratio mix and blend, then by this preserving temperature and reducing temperature coating Coat on superhigh temperature pipeline, to form a firm and airtight top layer.

Advantage of the present invention and effect are: this coatings, on superhigh temperature pipeline surface, is able to maintain that pipeline Internal temperature, maintains pipeline normal operation it is possible to reduce pipeline external temperature, to safeguard arround pipeline Safety.

[brief description]

It is the composition of the embodiment of the present invention shown in Fig. 1 and use schematic diagram.

In figure label declaration is as follows:

Preserving temperature and reducing temperature coating 1 dry type raw material 10 dead burned magnesia 11

The thick perlite 14 of potassium dihydrogen phosphate 12 Borax 13

Copper tailings 15 titanium dioxide 16 waterproof powder 17

Flyash 18 magnesium oxide 19 aqueous 20

[specific embodiment]

It is a kind of preserving temperature and reducing temperature coating 1 that the present invention is protected, and is a kind of insulation being made up of nine kinds of inorganic material High tailored coating, is particularly well-suited to be coated for superhigh temperature pipeline appearance, to keep channel interior temperature, The purposes simultaneously reducing pipeline external temperature uses.The use of its composition is as shown in figure 1, this preserving temperature and reducing temperature applies Mixed by a dry type raw material 10 and aqueous 20 on material 1 composition, its mixed proportion is this dry type raw material 10 percentage by weight between 55～65% and this aqueous 20 percentage by weight 35～45%.This dry type is former Material 10 is that one kind is combined by nine kinds of inorganic material, makes to be uniformly mixed through stirring, this aqueous 20 is then For general clear water, more often it is used the handy water source such as tap water, subsoil water or spring water.Must during use This dry type raw material 10 must be first combined into, then by this dry type raw material 10 and this aqueous 20 according to aforementioned proportion plus A kind of coating of glue property is become with mix and blend, is so configured to the preserving temperature and reducing temperature that the present invention is protected Coating 1, then quickly coats this preserving temperature and reducing temperature coating 1 on superhigh temperature pipeline, is a kind of in pipeline Do the mode of inorganic coating in appearance, quick form a firm and airtight top layer it is sufficient to by pipeline with extraneous Environment is isolated, and keeps channel interior temperature to reach, reduces the effect of pipeline external temperature simultaneously.

In preserving temperature and reducing temperature coating 1 of the present invention, the most important research and development that consist of of this dry type raw material 10 break through, Refer to shown in Fig. 1, the dry type raw material 10 in preserving temperature and reducing temperature coating 1 of the present invention is by nine kinds of inorganic material Mixed stirring composition a, comprising: dead burned magnesia 11, a potassium dihydrogen phosphate 12, a Borax 13, Thick perlite 14, a bronze medal tailings 15, a titanium dioxide 16, a waterproof powder 17, a flyash 18 and an oxidation The mixed composition of magnesium 19, wherein, this dead burned magnesia 11 to adopt Dry powder state entrance mix and blend is Good, percentage by weight accounts for the 21.5% of total dry type raw material 10；This potassium dihydrogen phosphate 12 is to adopt Dry powder shape State enters mix and blend and is preferred, and percentage by weight accounts for the 14% of total dry type raw material 10；This Borax 13 is dry to adopt Formula pulverulence enters mix and blend and is preferred, and percentage by weight accounts for the 3.5% of total dry type raw material 10；This thick treasure Pearl rock 14 is preferred with adopting Dry powder state entrance mix and blend, and percentage by weight accounts for total dry type raw material 10 20%；This copper tailings 15 is preferred with adopting Dry powder state entrance mix and blend, and percentage by weight accounts for total dry type The 10% of raw material 10；This titanium dioxide 16 is preferred with adopting Dry powder state entrance mix and blend, weight percent Ratio accounts for the 5% of total dry type raw material 10；This waterproof powder 17 is preferred with adopting Dry powder state entrance mix and blend, Percentage by weight accounts for the 5% of total dry type raw material 10；This flyash 18 enters mixing to adopt Dry powder state Stirring is preferred, and percentage by weight accounts for the 18.5% of total dry type raw material 10；This magnesium oxide 19 is equally to adopt dry type Pulverulence enters mix and blend and is preferred, and percentage by weight accounts for the 2.5% of total dry type raw material 10.In manufacture, Must first by dead burned magnesia 11, potassium dihydrogen phosphate 12, Borax 13, thick perlite 14, copper tailings 15, Titanium dioxide 16, waterproof powder 17, flyash 18 and 19 9 kinds of inorganic material of magnesium oxide, according to aforementioned proportion plus To mix, and the dry type raw material 10 in preserving temperature and reducing temperature coating 1 of the present invention can be consisted of through uniform stirring.

For the proportion of composing of this dry type raw material 10, for example, if carrying out this dead burned magnesia 11 is 0.43 Kilogram (kg), this potassium dihydrogen phosphate 12 are 0.28 kilogram (kg), this Borax 13 is 0.07 kilogram (kg), This thick perlite 14 is 0.40 kilogram (kg), this copper tailings 15 is 0.20 kilogram (kg), this titanium dioxide 16 For 0.10 kilogram (kg), this waterproof powder 17 be 0.10 kilogram (kg), this flyash 18 be 0.37 kilogram (kg) And the ratio mix and blend that this magnesium oxide 19 is 0.05 kilogram (kg) consists of the dry type of weight 2 kilograms (kg) Raw material 10, and in mixed process, this dry type raw material 10 is done uniform stirring, this is completed with leading preparation and does Formula raw material 10.Then using before can add about 1.077～1, aqueous 20 of 6364 kilograms (kg), and through uniformly Stirring becomes preserving temperature and reducing temperature coating 1 between 3.077～3.6364 kilograms (kg) for the gross weight.That is, added Aqueous 20 account for the 35～45% of preserving temperature and reducing temperature coating 1 gross weight finally allocated.

The number of added aqueous 20 simply changes the colloidal nature of this preserving temperature and reducing temperature coating 1, and aqueous 20 add Dosage more at most this preserving temperature and reducing temperature coating 1 can form diluter state, is relatively easier to be applied to superhigh temperature On pipeline；This preserving temperature and reducing temperature coating 1 can form thicker state, relatively i.e. relatively to aqueous 20 addition more at least It is difficult to be applied on superhigh temperature pipeline；But the ratio of added aqueous 20 for convenience will between 35～45% This preserving temperature and reducing temperature coating 1 is coated on superhigh temperature pipeline, if the ratio of added aqueous 20 is below 35%, The preserving temperature and reducing temperature coating 1 dry type raw material 10 contained therein then being formed can be excessively thick, leads to be difficult to construct The predicament of coating (brush)；As for added aqueous 20 ratio more than 45%, then the guarantor that formed Temperature drop thermo-paint 1 dry type raw material 10 contained therein can be excessive rarefied, leads to not be built-up on pipeline, meeting One is had to paint the puzzlement dropped immediately, the present invention is exactly through the checking of implementation many times, begins to obtain added water The ratio of liquid 20 is to be optimum conclusion between 35～45%.

Before dry type raw material 10 according to obtained by above material and ratio mixing has been one kind, institute is not taken off Then this dry type raw material 10 is added aqueous 20 and forms preserving temperature and reducing temperature coating 1 by dew and not adopted raw material Also it is to be never disclosed for and never adopted coating, be finally coated with this preserving temperature and reducing temperature coating 1 in superhigh temperature pipe Lu Shang, is formed a firm and airtight top layer, is isolated pipeline with external environment with reaching, make pipeline Internal superhigh temperature cannot be scattered and disappeared by pipeline surface, to maintain channel interior temperature and to reduce energy consumption, simultaneously Because this preserving temperature and reducing temperature coating 1 is formed the isolation on firm and airtight top layer so that pipeline external environment condition is tieed up Hold normal temperature, do not affected by pipeline superhigh temperature institute, relatively known for, pipeline external environment has reached cooling Effect, this preserving temperature and reducing temperature coating 1 of this kind of coating on superhigh temperature pipeline, to maintain channel interior temperature, Pipeline external temperature can be reduced, even more a kind of application not seen before simultaneously again.

When coating this preserving temperature and reducing temperature coating 1 on superhigh temperature pipeline, aqueous 20 are rapid evaporation, with When this grade dead burned magnesia 11, potassium dihydrogen phosphate 12, Borax 13, thick perlite 14, copper tailings 15, titanium Produce between white lead 16, the hybrid particles of waterproof powder 17, flyash 18 and 19 9 kinds of inorganic material of magnesium oxide Cemented coagulation, in addition to being quickly built-up on be coated with pipeline surface, more can be in aqueous evaporating completely Form one layer of firm and airtight top layer after decorporating, make the pipeline of coating and external environment completely isolated, to reach Become the effect that isolation pipeline is contacted with external environment.In general, applied using preserving temperature and reducing temperature coating 1 of the present invention When being distributed on superhigh temperature pipeline, effectively pipeline can be isolated with external environment, be made channel interior superelevation Temperature cannot be scattered and disappeared by pipeline surface, to maintain channel interior temperature and to reduce energy consumption, simultaneously because of this insulation High tailored coating 1 is formed the isolation on firm and airtight top layer so that pipeline external environment condition is maintained positive room temperature Degree, do not affected by pipeline superhigh temperature institute, relatively known for, pipeline external environment has reached the effect of cooling Action and efficacy.

Claims (4)

1. a kind of inorganic material superhigh temperature preserving temperature and reducing temperature coating it is characterised in that: have a dry type raw material, this do Formula raw material stirs mixed by nine kinds of inorganic material and forms, comprising: a dead burned magnesia, a potassium dihydrogen phosphate, One Borax, a thick perlite, a bronze medal tailings, a titanium dioxide, a waterproof powder, a flyash and a magnesium oxide, Wherein, the percentage by weight of this dead burned magnesia accounts for the 21.5% of total dry type raw material；The weight of this potassium dihydrogen phosphate Amount percentage ratio accounts for the 14% of total dry type raw material；The percentage by weight of this Borax accounts for the 3.5% of total dry type raw material； This slightly perlitic percentage by weight account for the 20% of total dry type raw material；The percentage by weight of this copper tailings accounts for always to be done The 10% of formula raw material；The percentage by weight of this titanium dioxide accounts for the 5% of total dry type raw material；The weight of this waterproof powder Percentage ratio accounts for the 5% of total dry type raw material；The percentage by weight of this flyash accounts for the 18.5% of total dry type raw material； The percentage by weight of this magnesium oxide accounts for the 2.5% of total dry type raw material, manufactures dead burned magnesia, di(2-ethylhexyl)phosphate Hydrogen potassium, Borax, thick perlite, copper tailings, titanium dioxide, waterproof powder, flyash and magnesium oxide are mixed Stirring, that is, consist of dry type raw material.

2. inorganic material superhigh temperature preserving temperature and reducing temperature coating according to claim 1 it is characterised in that: have One dry type raw material, this dry type raw material stirs mixed by nine kinds of inorganic material and forms, comprising: a reheating oxidation Magnesium, a potassium dihydrogen phosphate, a Borax, a thick perlite, a bronze medal tailings, a titanium dioxide, a waterproof powder, One flyash and a magnesium oxide, wherein, this dead burned magnesia, potassium dihydrogen phosphate, Borax, thick perlite, Copper tailings, titanium dioxide, waterproof powder, flyash and this magnesium oxide all enter mixing using Dry powder state and stir Mix.

3. inorganic material superhigh temperature preserving temperature and reducing temperature coating according to claim 1 and 2 it is characterised in that: This preserving temperature and reducing temperature coating is mixed by this dry type raw material and aqueous, and mixed proportion is the weight of this dry type raw material Amount percentage ratio between the 55～65% of total preserving temperature and reducing temperature coating and this aqueous percentage by weight in total preserving temperature and reducing temperature The 35～45% of coating.

4. inorganic material superhigh temperature preserving temperature and reducing temperature coating according to claim 3 it is characterised in that: make Used time is first combined into this dry type raw material, then this dry type raw material and aqueous are become insulation according to ratio mix and blend High tailored coating is then by this preserving temperature and reducing temperature coatings on superhigh temperature pipeline, firm and airtight to form one Top layer.