CN105949904A

CN105949904A - High-adhesion impact-resistant thermal insulation coating

Info

Publication number: CN105949904A
Application number: CN201610414270.6A
Authority: CN
Inventors: 陈薇
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-11-04
Filing date: 2014-11-04
Publication date: 2016-09-21
Also published as: CN106009991A; CN104312335A; CN104312335B

Abstract

The invention discloses a high-adhesion impact-resistant thermal insulation coating. The coating is prepared from, by weight, 50-55 parts of acrylic acid resin, 22-26 parts of butyronitrile rubber 2707, 18-21 parts of phenolic resin, 1.1-1.4 parts of anti-aging agent 4010NA, 23-26 parts of modified graphene, 10-13 parts of talcum powder, 8-11 parts of calcined kaolin, 3-6 parts of hollow microspheres, 1.1-1.5 parts of silane coupling agent KH-560, 1.4-1.8 parts of coalescing agent, 2.2-2.5 parts of dispersing agent, 1.6-1.9 parts of antifoaming agent, 1-1.5 parts of thickening agent, 1.8-2.1 parts of wetting agent, 1.6-2 parts of leveling agent, 0.3-0.6 part of preservative, 0.2-0.5 part of mould inhibitor and 58-62 parts of solvent. The coating is high in adhesion and good in impact resistance.

Description

A kind of high adhesion force shock resistance thermal insulation coatings

The application is application number: 2014106119283, the applying date: on November 4th, 2014, denomination of invention: the divisional application of a kind of high adhesion force shock resistance thermal insulation coatings.

Technical field

The present invention relates to thermal insulation coatings technical field, particularly relate to a kind of high adhesion force shock resistance thermal insulation coatings.

Background technology

Thermal insulation coatings is a kind of coating being realized heat-insulation and heat-preservation by low thermal conductivity and high thermal resistance, it is integrated with microcellular structure and reticular fiber structure, there is preferable toleration, heat-proof quality, every cold performance, it is widely used in metallurgy, chemical industry, the fields such as traffic, but the adhesive force of thermal insulation coatings is gradually lowered along with the increase of the time of use, easily it is peeling phenomenon, the product using this coating is caused to produce local temperature difference, and then safety in production is caused serious threat, simultaneously, the product of coating thermal insulation coatings is in use, also the active force in the external world it is vulnerable to, this also requires that thermal insulation coatings possesses good impact resistance, current existing thermal insulation coatings can not meet this demand.

Summary of the invention

The technical problem that basic background technology exists, the present invention proposes a kind of high adhesion force shock resistance thermal insulation coatings, and adhesive force is high, shock resistance is good.

nullA kind of high adhesion force shock resistance thermal insulation coatings that the present invention proposes，Its raw materials by weight portion includes: acrylic resin 50-55 part，Nitrile rubber 2707 22-26 part，Phenolic resin 18-21 part，Antioxidant 4010NA 1.1-1.4 part，Modified graphene 23-26 part，Pulvis Talci 10-13 part，Calcined kaolin 8-11 part，Cenosphere 3-6 part，Silane coupler KH-560 1.1-1.5 part，Coalescents 1.4-1.8 part，Dispersant 2.2-2.5 part，Defoamer 1.6-1.9 part，Thickening agent 1-1.5 part，Wetting agent 1.8-2.1 part，Levelling agent 1.6-2 part，Preservative 0.3-0.6 part，Antifungus agent 0.2-0.5 part，Solvent 58-62 part；

In the preparation process of modified graphene, the first reaction vessel by weight sodium nitrite solution that 3-6 part Graphene, 8-10 part concentration are 1.2-1.5mmol/L and 15-18 part hexanol put into, 0.6-1h is stirred with the mixing speed of 110-115rpm, adding 0.5-0.8 part concentration is 96-98wt% sulfuric acid solution, first reaction vessel is warming up to 66-70 DEG C, after stirring 1.2-1.8h with the mixing speed of 90-110rpm, it is cooled to 25-28 DEG C, being dried to obtain material A after centrifugation, the speed of centrifugation is 3600-3800rpm；Material A, 4-7 part acetone, 6-9 part vitamin C, 3-5 part neck nitroaniline are added the second reaction vessel, after standing 16-18h, ultrasonic disperse 1-3h obtains material B, the frequency of ultrasonic disperse is 36-40KHz, and the power of ultrasonic disperse is 950-1100W, filters, is dried to obtain modified graphene.

Preferably, solvent is that butyl glycol ether and triethanolamine form for 4-5:1-2 by volume.

Preferably, in nitrile rubber 2707, the fine content of propylene is 27-30wt%.

Preferably, acrylic resin, nitrile rubber 2707, the weight ratio of phenolic resin are 52-53:24-25:19-20.

Preferably, its raw materials by weight portion includes: acrylic resin 52-53 part, nitrile rubber 2707 24-25 part, phenolic resin 19-20 part, antioxidant 4010NA 1.2-1.3 part, modified graphene 24-25 part, Pulvis Talci 11-12 part, calcined kaolin 9-10 part, cenosphere 4-5 part, silane coupler KH-560 1.3-1.4 part, coalescents 1.5-1.7 part, dispersant 2.3-2.4 part, defoamer 1.7-1.8 part, thickening agent 1.2-1.3 part, wetting agent 1.9-2 part, levelling agent 1.7-1.8 part, preservative 0.4-0.5 part, antifungus agent 0.3-0.4 part, solvent 59-60 part.

Preferably, in the preparation process of modified graphene, the first reaction vessel by weight sodium nitrite solution that 4-5 part Graphene, 8.5-9 part concentration are 1.3-1.4mmol/L and 16-17 part hexanol put into, 0.7-0.8h is stirred with the mixing speed of 112-114rpm, adding 0.6-0.7 part concentration is 96-98wt% sulfuric acid solution, first reaction vessel is warming up to 67-68 DEG C, after stirring 1.4-1.6h with the mixing speed of 98-104rpm, it is cooled to 26-27 DEG C, being dried to obtain material A after centrifugation, the speed of centrifugation is 3680-3700rpm；Material A, 5-6 part acetone, 7-8 part vitamin C, 3.5-4 part neck nitroaniline are added the second reaction vessel, after standing 16.5-17h, ultrasonic disperse 1.5-2h obtains material B, the frequency of ultrasonic disperse is 38-39KHz, the power of ultrasonic disperse is 980-1000W, filters, is dried to obtain modified graphene.

The present invention, using acrylic resin, nitrile rubber 2707, phenolic resin as film forming matter, makes the present invention possess higher adhesive force and impact resistance；nullAnd modified graphene、Pulvis Talci、Calcined kaolin、The interpolation of cenosphere，Substantially increase adhesive force and the impact resistance of the present invention，Wherein modified graphene is made up through neck nitroaniline modification of Graphene，In modifying process，Amido link is formed between graphenic surface and neck para-nitroaniline molecule，Make to lead nitroaniline to be firmly grafted on graphenic surface，On the one hand improve Graphene dispersibility in the present invention，Also modified graphene is made to be easier to coated material diffusion into the surface，Thus improve the adhesive force of the present invention，On the other hand，It is grafted the modified graphene of neck para-nitroaniline molecule，The amino that can be contained by its surface and the itrile group polar interaction in film forming matter，Enhance the interface interaction of modified graphene and film forming matter，Make both the most compatible，Additionally，Alkyl bond in modified graphene fully can be wound around with film forming matter molecule，Further improve the stability of " film forming matter modified graphene " structure，Make the present invention when by External Force Acting，Can be effectively by modified graphene extremely strong for load transfer to physical and mechanical properties，Thus substantially increase the shock resistance of the present invention，And cenosphere has certain static air layer，It is evenly distributed among " film forming matter modified graphene "，Can be by there is the electromagnetic wave of a large amount of emission of ions with identical charges between microballon and microballon，Effectively shield heat energy、Stop the conduction of heat energy，Thus substantially increase the heat-insulating property of the present invention.

Detailed description of the invention

Below, by specific embodiment, technical scheme is described in detail.

Embodiment 1

A kind of high adhesion force shock resistance thermal insulation coatings that the present invention proposes, its raw materials by weight portion includes: acrylic resin 55 parts, nitrile rubber 2,707 22 parts, 21 parts of phenolic resin, antioxidant 4010NA 1.1 parts, modified graphene 26 parts, Pulvis Talci 10 parts, calcined kaolin 11 parts, cenosphere 3 parts, silane coupler KH-5601.5 part, coalescents 1.4 parts, dispersant 2.5 parts, defoamer 1.6 parts, thickening agent 1.5 parts, wetting agent 1.8 parts, levelling agent 2 parts, preservative 0.3 part, antifungus agent 0.5 part, solvent 58 parts；Wherein, solvent is that butyl glycol ether and triethanolamine form for 5:2 by volume, and in nitrile rubber 2707, the fine content of propylene is 27wt%；

In the preparation process of modified graphene, the first reaction vessel by weight sodium nitrite solution that 6 parts of Graphenes, 8 parts of concentration are 1.5mmol/L and 15 parts of hexanol put into, 0.6h is stirred with the mixing speed of 115rpm, adding 0.8 part of concentration is 96wt% sulfuric acid solution, first reaction vessel is warming up to 70 DEG C, after stirring 1.8h with the mixing speed of 90rpm, is cooled to 25 DEG C, being dried to obtain material A after centrifugation, the speed of centrifugation is 3800rpm；Material A, 4 parts of acetone, 9 parts of vitamin Cs, 3 parts of neck nitroanilines are added the second reaction vessel, and after standing 18h, ultrasonic disperse 1h obtains material B, and the frequency of ultrasonic disperse is 40KHz, and the power of ultrasonic disperse is 950W, filters, is dried to obtain modified graphene.

Embodiment 2

A kind of high adhesion force shock resistance thermal insulation coatings that the present invention proposes, its raw materials by weight portion includes: acrylic resin 50 parts, nitrile rubber 2,707 26 parts, 18 parts of phenolic resin, antioxidant 4010NA 1.4 parts, modified graphene 23 parts, Pulvis Talci 13 parts, calcined kaolin 8 parts, cenosphere 6 parts, silane coupler KH-560 1.1 parts, coalescents 1.8 parts, dispersant 2.2 parts, defoamer 1.9 parts, thickening agent 1 part, wetting agent 2.1 parts, levelling agent 1.6 parts, preservative 0.6 part, antifungus agent 0.2 part, solvent 62 parts；Wherein, solvent is that butyl glycol ether and triethanolamine form for 4:1 by volume, and in nitrile rubber 2707, the fine content of propylene is 30wt%；

In the preparation process of modified graphene, the first reaction vessel by weight sodium nitrite solution that 3 parts of Graphenes, 10 parts of concentration are 1.2mmol/L and 18 parts of hexanol put into, 1h is stirred with the mixing speed of 110rpm, adding 0.5 part of concentration is 98wt% sulfuric acid solution, first reaction vessel is warming up to 66 DEG C, after stirring 1.2h with the mixing speed of 110rpm, is cooled to 28 DEG C, being dried to obtain material A after centrifugation, the speed of centrifugation is 3600rpm；Material A, 7 parts of acetone, 6 parts of vitamin Cs, 5 parts of neck nitroanilines are added the second reaction vessel, and after standing 16h, ultrasonic disperse 3h obtains material B, and the frequency of ultrasonic disperse is 36KHz, and the power of ultrasonic disperse is 1100W, filters, is dried to obtain modified graphene.

Embodiment 3

A kind of high adhesion force shock resistance thermal insulation coatings that the present invention proposes, its raw materials by weight portion includes: acrylic resin 53 parts, nitrile rubber 2,707 24 parts, 20 parts of phenolic resin, antioxidant 4010NA 1.2 parts, modified graphene 25 parts, Pulvis Talci 11 parts, calcined kaolin 10 parts, cenosphere 4 parts, silane coupler KH-560 1.4 parts, coalescents 1.5 parts, dispersant 2.4 parts, defoamer 1.7 parts, thickening agent 1.3 parts, wetting agent 1.9 parts, levelling agent 1.8 parts, preservative 0.4 part, antifungus agent 0.4 part, solvent 59 parts；Wherein, solvent is that butyl glycol ether and triethanolamine form for 5:2 by volume, and in nitrile rubber 2707, the fine content of propylene is 27wt%；

In the preparation process of modified graphene, the first reaction vessel by weight sodium nitrite solution that 5 parts of Graphenes, 8.5 parts of concentration are 1.4mmol/L and 16 parts of hexanol put into, 0.7h is stirred with the mixing speed of 114rpm, adding 0.7 part of concentration is 96wt% sulfuric acid solution, first reaction vessel is warming up to 68 DEG C, after stirring 1.6h with the mixing speed of 98rpm, is cooled to 26 DEG C, being dried to obtain material A after centrifugation, the speed of centrifugation is 3700rpm；Material A, 5 parts of acetone, 8 parts of vitamin Cs, 3.5 parts of neck nitroanilines are added the second reaction vessel, after standing 17h, ultrasonic disperse 1.5h obtains material B, the frequency of ultrasonic disperse is 39KHz, and the power of ultrasonic disperse is 980W, filters, is dried to obtain modified graphene.

Embodiment 4

A kind of high adhesion force shock resistance thermal insulation coatings that the present invention proposes, its raw materials by weight portion includes: acrylic resin 52 parts, nitrile rubber 2,707 25 parts, 19 parts of phenolic resin, antioxidant 4010NA 1.3 parts, modified graphene 24 parts, Pulvis Talci 12 parts, calcined kaolin 9 parts, cenosphere 5 parts, silane coupler KH-560 1.3 parts, coalescents 1.7 parts, dispersant 2.3 parts, defoamer 1.8 parts, thickening agent 1.2 parts, wetting agent 2 parts, levelling agent 1.7 parts, preservative 0.5 part, antifungus agent 0.3 part, solvent 60 parts；Wherein, solvent is that butyl glycol ether and triethanolamine form for 4:2 by volume, and in nitrile rubber 2707, the fine content of propylene is 30wt%；

In the preparation process of modified graphene, the first reaction vessel by weight sodium nitrite solution that 4 parts of Graphenes, 9 parts of concentration are 1.3mmol/L and 17 parts of hexanol put into, 0.8h is stirred with the mixing speed of 112rpm, adding 0.6 part of concentration is 98wt% sulfuric acid solution, first reaction vessel is warming up to 67 DEG C, after stirring 1.4h with the mixing speed of 104rpm, is cooled to 27 DEG C, being dried to obtain material A after centrifugation, the speed of centrifugation is 3680rpm；Material A, 6 parts of acetone, 7 parts of vitamin Cs, 4 parts of neck nitroanilines are added the second reaction vessel, and after standing 16.5h, ultrasonic disperse 2h obtains material B, and the frequency of ultrasonic disperse is 38KHz, and the power of ultrasonic disperse is 1000W, filters, is dried to obtain modified graphene.

Embodiment 1-4 being carried out performance test, selects commercially available thermal insulation coatings as a control group, its result is as follows:

Detection project	Embodiment 1-4 meansigma methods	Matched group	Establishing criteria
				Adhesive force	1 grade	2 grades	GB/T 9286-1998
Impact resistance (kg cm)	64	56	GB/T 1732-1993

The above; it is only the present invention preferably detailed description of the invention; but protection scope of the present invention is not limited thereto; any those familiar with the art is in the technical scope that the invention discloses; according to technical scheme and inventive concept equivalent or change in addition thereof, all should contain within protection scope of the present invention.

Claims

1. a high adhesion force shock resistance thermal insulation coatings, it is characterised in that its raw materials by weight portion includes: acrylic resin 52-53 Part, nitrile rubber 2707 24-25 part, phenolic resin 19-20 part, antioxidant 4010NA 1.2-1.3 part, modified graphene 24-25 part, Pulvis Talci 11-12 part, calcined kaolin 9-10 part, cenosphere 4-5 part, silane coupler KH-560 1.3-1.4 part, coalescents 1.5-1.7 part, dispersant 2.3-2.4 part, defoamer 1.7-1.8 part, thickening agent 1.2-1.3 part, wetting agent 1.9-2 part, levelling agent 1.7-1.8 part, preservative 0.4-0.5 part, antifungus agent 0.3-0.4 part, solvent 59-60 part；

In the preparation process of modified graphene, the first reaction vessel by weight sodium nitrite solution that 3-6 part Graphene, 8-10 part concentration are 1.2-1.5mmol/L and 15-18 part hexanol put into, 0.6-1h is stirred with the mixing speed of 110-115rpm, adding 0.5-0.8 part concentration is 96-98wt% sulfuric acid solution, first reaction vessel is warming up to 66-70 DEG C, after stirring 1.2-1.8h with the mixing speed of 90-110rpm, it is cooled to 25-28 DEG C, being dried to obtain material A after centrifugation, the speed of centrifugation is 3600-3800rpm；Material A, 4-7 part acetone, 6-9 part vitamin C, 3-5 part neck nitroaniline are added the second reaction vessel, after standing 16-18h, ultrasonic disperse 1-3h obtains material B, the frequency of ultrasonic disperse is 36-40KHz, and the power of ultrasonic disperse is 950-1100W, filters, is dried to obtain modified graphene；

Described solvent is that butyl glycol ether and triethanolamine form for 4-5:1-2 by volume；

In described nitrile rubber 2707, the fine content of propylene is 27-30wt%.

High adhesion force shock resistance thermal insulation coatings the most according to claim 1, it is characterized in that, in the preparation process of modified graphene, by weight by 4-5 part Graphene, the first reaction vessel that 8.5-9 part concentration is the sodium nitrite solution of 1.3-1.4mmol/L and 16-17 part hexanol is put into, 0.7-0.8h is stirred with the mixing speed of 112-114rpm, adding 0.6-0.7 part concentration is 96-98wt% sulfuric acid solution, first reaction vessel is warming up to 67-68 DEG C, after stirring 1.4-1.6h with the mixing speed of 98-104rpm, it is cooled to 26-27 DEG C, material A it is dried to obtain after centrifugation, the speed of centrifugation is 3680-3700rpm；Material A, 5-6 part acetone, 7-8 part vitamin C, 3.5-4 part neck nitroaniline are added the second reaction vessel, after standing 16.5-17h, ultrasonic disperse 1.5-2h obtains material B, the frequency of ultrasonic disperse is 38-39KHz, the power of ultrasonic disperse is 980-1000W, filters, is dried to obtain modified graphene.