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Oleate modified organic silicon defoamer for coating and preparation method thereof

A technology of silicone defoamer and oleate, which is applied in the field of oleate modified silicone defoamer for coating and its preparation, can solve the problem of polyether defoamer effect reduction, easy demulsification, and easy crystallization Solve problems such as precipitation, achieve the effect of improving defoaming ability, simple production process, and reducing surface tension

Active Publication Date: 2020-11-06
ZHEJIANG TRANSFAR WHYYON CHEM
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Silicone emulsion, especially the silicone emulsion defoamer with silicone oil and silicone paste as the main defoaming components, is not well dispersed in the spray coating, and the demulsification of the defoamer is easy to precipitate silicone oil, resulting in silicon spots and silicon spots on the paper after spraying. Dirt; polyether defoamers are also used as paint defoamers, which are sensitive to temperature, and the temperature change during spraying will greatly reduce the effect of polyether defoamers; mineral oil defoamers are used in spray coating It is also widely used, but the mineral oil defoamer with good defoaming effect often has a high melting point, and it is easy to crystallize and precipitate in a low temperature environment, making it difficult to use
Patent CN110960892A discloses a paint defoamer, the main components are polyether silicon, silicon dioxide, and hydrocarbonated oil, which improves the defoaming problem in high-viscosity paints, but a new problem has arisen: silicon dioxide is easy to Silicon scale and silicon spots are formed in the paint; patent CN106810934A discloses a high-build paint defoamer and its preparation method, wherein the defoamer includes methyl silicone oil, higher fatty alcohol, and modified glycerol polyether. It is difficult to emulsify in the system, easy to break the emulsion, and the melting point of higher fatty alcohol is high, and it is easy to crystallize and precipitate solid at low temperature, which makes it difficult to use
In addition, not only the problem of defoaming performance must be considered, but also the affinity of silicon-containing substances in the defoamer in the coating must be considered. The poor affinity of the defoamer leads to poor compatibility with paper coatings and easy Oil stains, shrinkage cavities and other paper defects are formed on the paper, and the defoaming active ingredients in pure mineral oil or high-carbon alcohol have a high freezing point, which is easy to solidify in the colder northern environment in winter, resulting in the precipitation and crystallization of the defoamer system. Convenience, these will cause obstacles to the use of defoamers

Method used

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  • Oleate modified organic silicon defoamer for coating and preparation method thereof
  • Oleate modified organic silicon defoamer for coating and preparation method thereof
  • Oleate modified organic silicon defoamer for coating and preparation method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0041] 1) Put isooctyl alcohol and oleic acid with a molar ratio of 1:0.85 in the reactor and start stirring, add 0.1% methanesulfonic acid catalyst of the total mass of the system materials, start to heat up and at the same time open the vacuum to -0.08MPa, and heat up to Insulate and react at 140°C for 6 hours, then turn off the vacuum to end the reaction to obtain the esterified intermediate A;

[0042]2) Put the esterified product intermediate A with a molar ratio of 1:1.5 and the hydrogen-containing silicone oil with a hydrogen content of 0.05% into another reaction kettle and start stirring, and remove it at a vacuum degree of -0.090MPa and a temperature of 85°C. Water, removal of low-boiling point impurities, the treatment time is 30min, then turn off the vacuum, add 0.1% chloroplatinic acid catalyst of the total mass of the system material, in N 2 Under ambient conditions, the temperature was raised to 90°C for 6 hours to complete the reaction, and the oleic acid ester...

Embodiment 2

[0046] 1) Put isooctyl alcohol and oleic acid with a molar ratio of 1:1 in the reactor and start stirring, add 0.25% p-toluenesulfonic acid catalyst of the total mass of the system materials, start to heat up and at the same time turn on the vacuum to -0.085MPa, heat up Heat the reaction at 120°C for 3 hours, and then turn off the vacuum to end the reaction to obtain the esterified intermediate A;

[0047] 2) Put the esterified product intermediate A with a molar ratio of 1:1 and the hydrogen-containing silicone oil with a hydrogen content of 0.1% in another reactor and start stirring, and carry out at a vacuum of -0.090MPa and a temperature of 90°C Remove water, remove low boiling point impurity treatment, treatment time is 20min, turn off vacuum then, add the chloroplatinic acid catalyst of 0.25% of system material gross mass, in N 2 Under ambient conditions, the temperature was raised to 100°C for 4 hours to complete the reaction, and the oleic acid ester modified silicone ...

Embodiment 3

[0051] 1) Put isooctyl alcohol and oleic acid with a molar ratio of 1:1.15 in the reactor and start stirring, add 0.5% sulfamic acid catalyst of the total mass of the system materials, start to heat up and at the same time turn on the vacuum to -0.09MPa, and heat up to Insulate and react for 4 hours at 160°C, then turn off the vacuum to end the reaction to obtain the esterified intermediate A;

[0052] 2) Put the esterified product intermediate A with a molar ratio of 1:0.5 and the hydrogen-containing silicone oil with a hydrogen content of 0.36% in another reactor and start stirring at a vacuum of -0.090MPa and a temperature of 95°C. Remove water, remove low boiling point impurity treatment, treatment time is 25min, turn off vacuum then, add the 0.5% chloroplatinic acid catalyst of system material gross mass, in N 2 Under ambient conditions, the temperature was raised to 115°C for 2 hours to complete the reaction, and the oleic acid ester modified silicone defoamer active sub...

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Abstract

The invention discloses an oleate modified organic silicon defoamer for coating and a preparation method of the oleate modified organic silicon defoamer. The preparation method comprises the followingsteps: firstly, carrying out esterification reaction on oleic acid and alcohol substances to obtain an ester intermediate; then, in an N2-protected catalyst system, hydrogen-containing silicone oil and the ester intermediate are subjected to an addition reaction, and an oleate modified organic silicon defoamer active matter is prepared; and finally, compounding the oleate modified organic silicondefoamer active matter, solvent mineral oil and an emulsifier to prepare the oleate modified organic silicon defoamer. The oleate modified organic silicon defoamer produced according to the inventionis applied to foam elimination in papermaking coating, has very small negative influence on the surface mechanical properties of coating paint and paper, and has the characteristics of small dosage,high defoaming speed, strong foam inhibition capability, no toxicity, no harm, simple production process and the like.

Description

technical field [0001] The invention relates to the field of fine chemicals, in particular to an oleic acid ester modified organic silicon defoamer for coating and a preparation method thereof. Background technique [0002] As we all know, coatings are mainly composed of pigments, adhesives and functional additives, and the adhesives mainly include styrene-butadiene latex, VAE emulsion, acrylic emulsion and other easy-to-foam components. In the process of coating coating preparation, foaming is easy to occur, and in the subsequent paper spraying process, uneven spraying and unevenness of paper spraying are often caused. Therefore, it is necessary to add a defoamer in the process of preparing the coating to reduce the degree of system foaming. [0003] At present, the main paint defoamers on the market include silicones, polyethers, and mineral oils, all of which can eliminate the foam produced in paper spray coatings to varying degrees, but there are also some problems. Si...

Claims

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Application Information

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IPC IPC(8): B01D19/04C08G77/38C08G77/12
CPCB01D19/0404B01D19/0409C08G77/12C08G77/38
Inventor 杨磊查汪敏梁福根刘潇潇李华杰谢青宇李德品
Owner ZHEJIANG TRANSFAR WHYYON CHEM
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