CN103709898A - Heavy-sizing type anti-corrosive paint for anti-static hollow glass bead - Google Patents

Abstract

The invention provides a heavy-sizing type anti-corrosive paint for an anti-static hollow glass bead. The heavy-sizing type anti-corrosive paint uses a plurality of composite additives, and comprises a film forming agent, a curing agent, a modifying agent, a composite filler, a dilute, a composite conducting medium, an anti-sedimentation agent and a deforming agent. The heavy-sizing type anti-corrosive paint for the anti-static hollow glass bead has the characteristics of excellent anti-dielectric permeability, good wear resistance, small contraction rate in a curing process, small coefficient of thermal expansion, good bonding property of a liner and a base body, good temperature surge resistance, good anti-static property, good light resistance, all-year use, good construction manufacturability, convenience in construction and easiness of repairing and the like.

Description

The heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl

Technical field

The invention belongs to the heavy thick-slurry type protective system of heavy-duty coating, especially anti-electrostatic hollow glass micropearl field.

Background technology

Generally can under harsh corrosive environment, apply and there is the coating of long life and be called heavy-duty coating.In chemical atmosphere and ocean environment, heavy-duty coating generally can be used more than 10 or 15 years; In acid, alkali, salt and solvent medium and under the etching condition of certain temperature, conventionally should be able to use more than 5 years.

The application of heavy-duty coating relates to each field of modern industry: as emerging oceanographic engineering-Offshore Units, seashore and bay structure and offshore drilling platforms etc.; Modern communications and transportation-bridge, boats and ships, freight container, train and automobile etc.; Important energy industry-oil pipe, oil tank, power transmission and transforming equipment, nuclear power generating equipment and coal mine etc.; The pipeline storage tank of large-scale industrial and mining enterprises-chemical industry, iron and steel, petroleum chemical plant, equipment and large-scale mine smelting equipment etc.

The development of heavy-duty coating and the comprehensive development of modern industrial technology are closely-related.The development that the development of heavy-duty coating relates to many-sided technology is as metal and non-metallic material corrosion and protection mechanism, process for treating surface, the exploitation of novel synthetic resins and thick-film formulation for coating material, the aspects such as the development and application of rust-stabilising pigment, filler and high effective additives and construction, maintenance and modern detecting.In this sense, the developmental level of heavy-duty coating also indicates a national Sci-Tech Level.

Heavy-duty coating feature: thick-film, this is one of important symbol of heavy-duty coating; High performance anti-corrosion synthetic resins and novel pigment, the Application and Development of filler; Heavy-duty coating must combine and just can reach ideal effect with the strict surface treatment of metallic matrix, and both are indispensable; Correct construction and maintenance management are the important steps that realizes heavy-duty coating design discipline and target.

The coating dry film thickness of conventional protective system is generally 100 μ m or more than 150 μ m, and heavy-duty coating build generally will be more than 200 or 300 μ m, and thick person can reach 500～1000 μ m, even 2000 μ m (2mm).The thick long-acting life-span of filming as coating provides reliable assurance, also to coating processing and construction, has proposed new requirement simultaneously.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of perviousness with extremely good anti-medium, good wearability, during sclerosis, shrinking percentage is little, and thermal expansivity is little, the cohesiveness of lining and matrix is good, resistance to temperature shock is good, and static electricity resistance is good, and photostabilization is good, there is full time usability, good construction technology, not only easy construction, and repair the heavy thick-slurry type protective system of easy anti-electrostatic hollow glass micropearl.

The present invention solves the problems of the technologies described above with following technical scheme: adopt multiple composite additive, its each component and mass percent are:

Component	Content (mass percent)
		Membrane-forming agent	20.0%～30.0%
Solidifying agent	8.0%～15.0%
		Properties-correcting agent	5.0%～25.0%
Compounded mix	20.0%～30.0%
		Thinner	5.0%～15.0%
Composite conducting medium	2.0%～6.0%
		Anti-sedimentation agent	2.0%～3.0%
Defoamer	0.005%～0.01%

Membrane-forming agent is that the epoxy resin (E-51) of mass ratio 60%～30% is compound with 10%～20% polyacrylic ester with 30%～50% epoxy resin (E-44).

Solidifying agent is that polymeric amide and 40%～20% the aliphatic cyclic amine of mass ratio 60%～80% is compound.

Properties-correcting agent is the vibrin of mass ratio 10%～30% and 90%～70% vinylnaphthalene ester resin compounded.

Compounded mix is that mica powder and 90%～70% the dipping hollow glass micropearl of mass ratio 10%～30% is compound.

Dipping hollow glass micropearl is immersed in 20% sodium nitrite solution, and temperature is controlled at 50 ℃, after 24h, pulls airing out.

Thinner is that epoxy propyl phenyl ether and 90%～70% the dimethylbenzene of mass ratio 10%～30% is compound.

Composite conducting medium is that carbon black and 40%～50% the poly-hydroxyalkyl vinyl base phenol of mass ratio 60%～50% is fatty acid ester compounded;

Anti-sedimentation agent is organobentonite.

Defoamer is dimethyl silicone oil.

Anti-electrostatic hollow glass micropearl of the present invention weighs thick-slurry type protective system, has the perviousness of extremely good anti-medium, good wearability, during sclerosis, shrinking percentage is little, thermal expansivity is little, and the cohesiveness of lining and matrix is good, and resistance to temperature shock is good, static electricity resistance is good, photostabilization is good, has full time usability, good construction technology, not only easy construction, and repair easily.

Embodiment

Embodiment 1:

Following component is in harmonious proportion and is formed by mass percentage:

Above component summation is 100%.

Embodiment 2:

Following component is in harmonious proportion and is formed by mass percentage:

Above component summation is 100%.

Embodiment 3:

Following component is in harmonious proportion and is formed by mass percentage:

Above component summation is 100%.

The main physical and chemical index of embodiment 1 product is:

Project	Quality index
		Tensile strength, kg/cm 2	293
Flexural strength, kg/cm 2	678
		Unit elongation, %	0.48
Cohesive strength, kg/cm 2	171
		Water vapor transmission rate (WVTR)	2
Barcol hardness	46
		Line style expands, ℃	2.2×10 -5
Wear factor	98
		Surface resistivity, Ω	10 8

Claims (10)

1. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl, is characterized in that adopting multiple composite additive, and its each component and mass percent are:

Component Mass percentage content Membrane-forming agent 20.0%～30.0% Solidifying agent 8.0%～15.0% Properties-correcting agent 5.0%～25.0% Compounded mix 20.0%～30.0% Thinner 5.0%～15.0% Composite conducting medium 2.0%～6.0% Anti-sedimentation agent 2.0%～3.0% Defoamer 0.005%～0.01%

2. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 1, is characterized in that membrane-forming agent is that the epoxy resin (E-51) of mass ratio 60%～30% is compound with 10%～20% polyacrylic ester with 30%～50% epoxy resin (E-44).

3. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 1, is characterized in that solidifying agent is that polymeric amide and 40%～20% the aliphatic cyclic amine of mass ratio 60%～80% is compound.

4. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 1, is characterized in that properties-correcting agent is the vibrin of mass ratio 10%～30% and 90%～70% vinylnaphthalene ester resin compounded.

5. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 1, is characterized in that compounded mix is that mica powder and 90%～70% the dipping hollow glass micropearl of mass ratio 10%～30% is compound.

6. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 5, is characterized in that flooding hollow glass micropearl and is immersed in 20% sodium nitrite solution, and temperature is controlled at 50 ℃, after 24h, pulls airing out.

7. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 1, is characterized in that thinner is that epoxy propyl phenyl ether and 90%～70% the dimethylbenzene of mass ratio 10%～30% is compound.

8. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 1, is characterized in that composite conducting medium is that carbon black and 40%～50% the poly-hydroxyalkyl vinyl base phenol of mass ratio 60%～50% is fatty acid ester compounded.

9. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 1, is characterized in that anti-sedimentation agent is organobentonite.

10. the heavy thick-slurry type protective system of anti-electrostatic hollow glass micropearl as claimed in claim 1, is characterized in that defoamer is dimethyl silicone oil.