CN104341967B - A kind of ballast tank anticorrosive coating and manufacture method - Google Patents

Abstract

The present invention relates to a kind of ballast tank anticorrosive coating and manufacture method；It is by bisphenol A epoxide resin, novolac epoxy resin, bisphenol F epoxy resin and Petropols, add in the mixed solvent of dimethylbenzene, n-butyl alcohol, add wet method sericite in powder, silicon powder, blanc fixe, titanium dioxide, aerosil, bentonite, active epoxy toughening diluent, silane coupler, polyacrylate copolymer, polyether-modified poly-methyl alkyl siloxane, blended, stir, grind the component A making high solid ballast tank anticorrosive coating, modified phenolic amine and modified amine are mixed and made into B component, by two component mixing during use；The coating of the present invention has excellent mechanical performances, pliability, a sea water resistance, and chemical-resistant can be as ballast tank coating, and the manufacture method of coating is simple, cheap, VOC content is low, meet the requirement of environmental protection.

Description

A kind of ballast tank anticorrosive coating and manufacture method

Technical field

The present invention relates to a kind of ballast tank anticorrosive coating and manufacture method, can be as the anticorrosion of marine ballast water tank Erosion, it may also be used for the anticorrosion of the steel such as ocean platform, steel structure and boats and ships.

Background technology

The ballast tank of boats and ships is under the Wet/Dry Cyclic Conditions of sky cabin/seawater ballast all the time, and its corrosive environment is disliked very much Bad, the coating used is very easy to corrosion failure, brings potential safety hazard to boats and ships.Therefore, International Maritime group in 2008 Knit execution pressure standard " the special seawater ballast tank of all types boats and ships and bulk freighter double topside places protective coating performance standard ", Coating performance standard is not only greatly improved, adds agglutination,cold test, resistance to cathodic protection, film flexibility requirement, and be coated with Layer anticorrosive spreads, made more careful regulation, therefore to anti-corrosion of ship ballast water tank in adhesive force and the project such as priming paint is supporting Erosion coating has had higher requirement, and conventional ballast tank anticorrosive coating is the most applicable.Presently commercially available anticorrosive coating There is also the shortcoming such as the temp. variation resistant poor performance of coating, film flexibility difference.

Summary of the invention

It is an object of the present invention to provide one and can improve that coating is anticorrosive spreads performance and antikathode stripping performance, have good Adhesive force, pliability, the coating of seawater corrosion resistance and manufacture method.

A kind of ballast tank anticorrosive coating of the present invention, is characterized in that being made up of component A and B component, wherein A group Point it is by 1 parts by weight of bisphenol A epoxy resin, 0.2～0.8 parts by weight of phenolic epoxy resin, 0.2～0.6 parts by weight of bisphenol F epoxy Resin, 0.1～0.4 weight portion Petropols, 0.4～0.6 parts by weight of xylene, 0.1～0.3 part by weight of n-butanol, 0.8～ 1.5 weight portion wet method sericites in powder, 0.6～1 weight portion blanc fixe, 0.5～1 weight portion silicon powder, 0.05～0.4 weight portion Titanium dioxide, 0.01～0.1 weight portion aerosil, 0.02～0.1 bentonite, 0.05～0.3 parts by weight of activated epoxy increase Tough diluent, 0.03～0.1 weight portion silane coupler, 0.01～0.1 parts by weight of polypropylene acid esters copolymer and 0.01～0.1 The polyether-modified poly-methyl alkyl siloxane composition of weight portion；B component is by the part by weight modified phenolic aldehyde amine in 0.5～1 and 0.2～0.5 Part by weight modified amine is mixed, and is mixed with 0.08～0.2 weight portion B component by 1 weight portion component A during use.

Preferably a kind of high solid ballast tank anticorrosive coating, is characterized in that being made up of component A and B component, wherein A Component be by 1 parts by weight of bisphenol A epoxy resin, 0.3 parts by weight of phenolic epoxy resin, 0.3 parts by weight of bisphenol F epoxy resin, 0.2 Weight portion Petropols, 0.5 parts by weight of xylene, 0.15 part by weight of n-butanol, 1.2 weight portion wet method sericites in powder, 0.9 weight Part blanc fixe, 0.7 weight portion silicon powder, 0.1 weight portion titanium dioxide, 0.02 weight portion aerosil, 0.03 bentonite, 0.15 parts by weight of activated epoxy toughening deflocculating agent, 0.06 weight portion silane coupler, 0.03 parts by weight of polypropylene acid esters copolymer Form with the polyether-modified poly-methyl alkyl siloxane of 0.02 weight portion；B component is by 0.7 part by weight modified phenolic aldehyde amine and 0.3 weight Amount part modified amine is mixed, and is mixed with 0.12 weight portion B component by 1 weight portion component A during use.

A kind of high solid ballast tank anticorrosive coating manufacture method, is characterized in that 1 parts by weight of bisphenol A asphalt mixtures modified by epoxy resin Fat, 0.2～0.8 parts by weight of phenolic epoxy resin, 0.2～0.6 parts by weight of bisphenol F epoxy resin, 0.1～0.4 weight portion oil The parts by weight of activated epoxy toughening deflocculating agent in resin, 0.05～0.3,0.03～0.1 weight portion silane coupler, 0.01～0.1 weight The polyether-modified poly-methyl alkyl siloxane of amount part polyacrylate copolymer and 0.01～0.1 weight portion joins 0.4～0.6 Parts by weight of xylene, 0.1～0.3 part by weight of n-butanol mixed solvent in addition dispersing and dissolving, add in the case of stirring 0.8～1.5 weight portion wet method sericites in powder, 0.6～1 weight portion blanc fixe, 0.5～1 weight portion silicon powder, 0.05～0.4 Weight portion titanium dioxide, 0.01～0.1 weight portion aerosil, 0.02～0.1 bentonite, after high-speed stirred 0.5h, then Grind 0.5～1h with sand mill and make component A；By the part by weight modified phenolic aldehyde amine in 0.5～1 and 0.2～0.5 part by weight modified amine system Become B component, mixed with 0.08～0.2 weight portion B component by 1 weight portion component A during use.

Preferably high solid ballast tank anticorrosive coating manufacture method, is characterized in that 1 parts by weight of bisphenol A asphalt mixtures modified by epoxy resin Fat, 0.3 parts by weight of phenolic epoxy resin, 0.3 parts by weight of bisphenol F epoxy resin, 0.2 weight portion Petropols, 0.15 weight portion Active epoxy toughening diluent, 0.06 weight portion silane coupler, 0.03 parts by weight of polypropylene acid esters copolymer and 0.02 weight The polyether-modified poly-methyl alkyl siloxane of part joins in the mixed solvent of 0.4 parts by weight of xylene, 0.2 part by weight of n-butanol In addition dispersing and dissolving, adds 1.2 weight portion wet method sericites in powder, 0.9 weight portion blanc fixe, 0.7 weight in the case of stirring Amount part silicon powder, 0.1 weight portion titanium dioxide, 0.02 weight portion aerosil, 0.03 bentonite, after high-speed stirred 0.5h, Then grind 0.5～1h with sand mill and make component A；B is made by 0.7 part by weight modified phenolic aldehyde amine and 0.3 part by weight modified amine Component, is mixed with 0.12 weight portion B component by 1 weight portion component A during use.

A kind of high solid ballast tank anticorrosive coating of the present invention and manufacture method, by bisphenol A epoxide resin, phenolic aldehyde Epoxy resin, bisphenol F epoxy resin and Petropols, add a certain amount of auxiliary agent, and a certain amount of color stuffing be formulated.? After the novolac epoxy resin solidification used in manufacture process, crosslink density is high, impervious excellent with antikathode stripping performance, heatproof Degeneration can be good.Bisphenol F epoxy resin has good thermostability, resistance to water and mechanical property, and its viscosity is relatively low, workability is excellent Good, can be used for no-solvent type or high solid coating, it is possible to substantially reduce the viscosity of coating system.Hydroxyl energy in Petropols After enough film forming of having an effect with firming agent, the anti-permeability performance of coating improves, moreover it is possible to the raising pliability of coating, resistance to acids and bases and Heat resistance.Wet method sericite in powder be physical behavior be lamellar, extend steam and the oxygen permeation pathway to coating, such that it is able to Improve the resistance to cathodic disbonding performance sea water corrosion resistant of coating.Blanc fixe can improve hardness and the wearability of coating and change The levelability of kind coating.The feature such as silicon powder has that particle diameter is thin, hardness is high, suspension and good dispersion, oil absorption are low, Ke Yiti The performances such as the heat resistance of high coating, acid-alkali-corrosive-resisting, stable chemical performance, hardness and anticorrosion.Titanium dioxide is as a kind of face Material, its function admirable such as chemical-resistant and acid-alkali-corrosive-resisting.Silane coupler passes through chemical reaction or physical action, at height Form molecular bridge between Molecularly Imprinted Polymer and inorganic metal ground, the two is firmly adhered to together, therefore improves coating Adhesive force with steel.Aerosil and bentonite can change the rheological property of system so that it is have thixotropy, thus Prevent the sedimentation of color stuffing so that it is system has good storage stability.Polyacrylate copolymer can reduce body strongly It is viscosity, and improves gloss and the levelling of coating, reduce surface tension, therefore preferable ground moistening is provided.Polyether-modified Poly-methyl alkyl siloxane improves the surface property of solvent based coating, with a particular focus on levelling, under only making surface tension slightly Fall, and there is certain froth breaking effect.

Present invention beneficial effect compared with prior art

1, a kind of high solid ballast tank anticorrosive coating of the present invention, its coating has excellent mechanical performances, pliable and tough Property, sea water resistance, chemical-resistant, can be as ballast tank coating.

2, a kind of high solid ballast tank anticorrosive coating manufacture method of the present invention is simple, cheap, VOC content Low, meet the requirement of environmental protection.

Detailed description of the invention

Embodiment 1

A kind of high solid ballast tank anticorrosive coating manufacture method of the present invention.In stainless charging basket, by 1 weight Amount part bisphenol A epoxide resin, 0.3 parts by weight of phenolic epoxy resin, 0.3 parts by weight of bisphenol F epoxy resin, 0.2 weight portion oil Resin, 0.15 parts by weight of activated epoxy toughening deflocculating agent, 0.06 weight portion silane coupler, 0.03 parts by weight of polypropylene acid esters are altogether The polyether-modified poly-methyl alkyl siloxane of aggressiveness and 0.02 weight portion joins 0.4 parts by weight of xylene, the 0.2 positive fourth of weight portion In addition dispersing and dissolving in the mixed solvent of alcohol, adds 1.2 weight portion wet method sericites in powder, 0.9 weight portion in the case of stirring Blanc fixe, 0.7 weight portion silicon powder, 0.1 weight portion titanium dioxide, 0.02 weight portion aerosil, 0.03 bentonite are high After speed stirring 0.5h, then grind 0.5～1h with sand mill and make component A；By 0.7 part by weight modified phenolic aldehyde amine and 0.3 weight Part modified amine makes B component, is mixed with 0.12 weight portion B component by 1 weight portion component A during use.

Embodiment 2

A kind of high solid ballast tank anticorrosive coating manufacture method of the present invention.In stainless charging basket, by 1 weight Amount part bisphenol A epoxide resin, 0.2 parts by weight of phenolic epoxy resin, 0.4 parts by weight of bisphenol F epoxy resin, 0.3 weight portion oil Resin, 0.2 parts by weight of activated epoxy toughening deflocculating agent, 0.08 weight portion silane coupler, 0.02 parts by weight of polypropylene acid esters are altogether The polyether-modified poly-methyl alkyl siloxane of aggressiveness and 0.03 weight portion joins 0.5 parts by weight of xylene, the 0.3 positive fourth of weight portion In addition dispersing and dissolving in the mixed solvent of alcohol, adds 1.4 weight portion wet method sericites in powder, 0.8 weight portion in the case of stirring Blanc fixe, 0.8 weight portion silicon powder, 0.2 weight portion titanium dioxide, 0.03 weight portion aerosil, 0.02 bentonite are high After speed stirring 0.5h, then grind 0.5～1h with sand mill and make component A；By 0.8 part by weight modified phenolic aldehyde amine and 0.2 weight Part modified amine makes B component, is mixed with 0.18 weight portion B component by 1 weight portion component A during use.

Raw materials used all use commercially available product.

Claims (4)

1. a ballast tank anticorrosive coating, is characterized in that: be made up of component A and B component, and wherein component A is by 1 weight portion Bisphenol A epoxide resin, 0.2～0.8 parts by weight of phenolic epoxy resin, 0.2～0.6 parts by weight of bisphenol F epoxy resin, 0.1～0.4 Weight portion Petropols, 0.4～0.6 parts by weight of xylene, 0.1～0.3 part by weight of n-butanol, 0.8～1.5 weight portion wet method thin,tough silk Mica powder, 0.6～1 weight portion blanc fixe, 0.5～1 weight portion silicon powder, 0.05～0.4 weight portion titanium dioxide, 0.01～ 0.1 weight portion aerosil, 0.02～0.1 bentonite, 0.05～0.3 parts by weight of activated epoxy toughening deflocculating agent, 0.03 ～0.1 weight portion silane coupler, 0.01～0.1 parts by weight of polypropylene acid esters copolymer and the polyethers of 0.01～0.1 weight portion Modified poly-methyl alkyl siloxane composition；B component is by the part by weight modified phenolic aldehyde amine in 0.5～1 and 0.2～0.5 part by weight modified amine It is mixed, is mixed with 0.08～0.2 weight portion B component by 1 weight portion component A during use.

A kind of ballast tank anticorrosive coating the most according to claim 1, is characterized in that: be made up of component A and B component, Wherein component A is by 1 parts by weight of bisphenol A epoxy resin, 0.3 parts by weight of phenolic epoxy resin, 0.3 parts by weight of bisphenol F asphalt mixtures modified by epoxy resin Fat, 0.2 weight portion Petropols, 0.5 parts by weight of xylene, 0.15 part by weight of n-butanol, 1.2 weight portion wet method sericites in powder, 0.9 weight portion blanc fixe, 0.7 weight portion silicon powder, 0.1 weight portion titanium dioxide, 0.02 weight portion aerosil, 0.03 Bentonite, 0.15 parts by weight of activated epoxy toughening deflocculating agent, 0.06 weight portion silane coupler, 0.03 parts by weight of polypropylene acid esters The polyether-modified poly-methyl alkyl siloxane composition of copolymer and 0.02 weight portion；B component by 0.7 part by weight modified phenolic aldehyde amine and 0.3 part by weight modified amine is mixed, and is mixed with 0.12 weight portion B component by 1 weight portion component A during use.

3. the ballast tank anticorrosive coating manufacture method described in claim 1, is characterized in that: by 1 parts by weight of bisphenol A ring Epoxy resins, 0.2～0.8 parts by weight of phenolic epoxy resin, 0.2～0.6 parts by weight of bisphenol F epoxy resin, 0.1～0.4 weight portion The parts by weight of activated epoxy toughening deflocculating agent in Petropols, 0.05～0.3,0.03～0.1 weight portion silane coupler, 0.01～ The polyether-modified poly-methyl alkyl siloxane of 0.1 parts by weight of polypropylene acid esters copolymer and 0.01～0.1 weight portion joins 0.4 ～0.6 parts by weight of xylene, 0.1～0.3 part by weight of n-butanol mixed solvent in addition dispersing and dissolving, in the case of stirring Add 0.8～1.5 weight portion wet method sericites in powder, 0.6～1 weight portion blanc fixe, 0.5～1 weight portion silicon powder, 0.05～ 0.4 weight portion titanium dioxide, 0.01～0.1 weight portion aerosil, 0.02～0.1 bentonite, after high-speed stirred 0.5h, so Grind 0.5～1h with sand mill afterwards and make component A；By the part by weight modified phenolic aldehyde amine in 0.5～1 and 0.2～0.5 part by weight modified amine Make B component, mixed with 0.08～0.2 weight portion B component by 1 weight portion component A during use.

Ballast tank anticorrosive coating manufacture method the most according to claim 3, is characterized in that: by 1 parts by weight of bisphenol A ring Epoxy resins, 0.3 parts by weight of phenolic epoxy resin, 0.3 parts by weight of bisphenol F epoxy resin, 0.2 weight portion Petropols, 0.15 weight Amount part active epoxy toughening diluent, 0.06 weight portion silane coupler, 0.03 parts by weight of polypropylene acid esters copolymer and 0.02 The polyether-modified poly-methyl alkyl siloxane of weight portion join 0.4 parts by weight of xylene, 0.2 part by weight of n-butanol mixing molten In addition dispersing and dissolving in agent, add in the case of stirring 1.2 weight portion wet method sericites in powder, 0.9 weight portion blanc fixe, 0.7 weight portion silicon powder, 0.1 weight portion titanium dioxide, 0.02 weight portion aerosil, 0.03 bentonite, high-speed stirred After 0.5h, then grind 0.5～1h with sand mill and make component A；Part by weight modified by 0.7 part by weight modified phenolic aldehyde amine and 0.3 Amine makes B component, is mixed with 0.12 weight portion B component by 1 weight portion component A during use.