CN109206997A

CN109206997A - Corrosion-inhibiting coating for air cooler heat exchange pipe

Info

Publication number: CN109206997A
Application number: CN201811016675.XA
Authority: CN
Inventors: 袁小林; 邓呈军; 豆丽花
Original assignee: Chengdu Changjiang Boiler Heat Energy Equipment Manufacturing Co Ltd
Current assignee: Chengdu Changjiang Boiler Heat Energy Equipment Manufacturing Co Ltd
Priority date: 2018-09-03
Filing date: 2018-09-03
Publication date: 2019-01-15

Abstract

The invention discloses the corrosion-inhibiting coating for air cooler heat exchange pipe, the component including following parts by weight: 10-20 parts of vinyl ester resins, 20-30 parts of acrylic resins, 3-8 parts of zinc yellows, 1-6 parts high titanium ash, 5-10 parts of feldspar powders, 3-8 parts of diamond dust, 5-10 parts of ceramics, 5-8 parts of nanosilica solutions, 10-15 parts of Kynoar glues, 6-12 parts of ammonium polyphosphate, 5-20 parts of modified high chlorinated polyethylene resins, 10-20 parts of carboxylic acid polyalcohols, 5-15 parts of fluorine-carbon modified polysiloxanes, 1-5 portions of organic inhibitors, 1-3 parts of rust-inhibiting additives.The present invention can enhance the antiseptic property of heat transfer tube wall while the thermal conductance that guarantee heat exchanger tube has had.

Description

Corrosion-inhibiting coating for air cooler heat exchange pipe

Technical field

The present invention relates to a kind of corrosion-inhibiting coatings, and in particular to the corrosion-inhibiting coating for air cooler heat exchange pipe.

Background technique

Heat exchanger tube is one of element of heat exchanger, is placed within cylinder, the exchange for heat between two media.With very High thermal conductivity and good isothermal.It is a kind of device that thermal energy can be reached quickly to another point from a bit, and almost There is no thermal losses, therefore it is referred to as heat transfer superconductor, thermal coefficient is thousands of times of copper.Common used material has carbon steel, low Steel alloy, stainless steel, copper, corronil, aluminium alloy, titanium etc..

There are many high concentrations in industrial refrigeration, the chemical fluid of highly corrosive needs to carry out cooling down, existing to change Heat pipe anti-corrosion effect is poor, after the fluid of square highly corrosive enters heat exchanger tube inside, is substantial inside heat exchanger tube, not only It will affect the cooling of fluid, it is also possible to bring serious safety accident.

Summary of the invention

The technical problem to be solved by the present invention is to current heat exchanger tube anticorrosion effect differences, and it is an object of the present invention to provide for air-cooled The corrosion-inhibiting coating of device heat exchanger tube solves the problems, such as that current heat exchanger tube anticorrosion effect is poor.

The present invention is achieved through the following technical solutions:

For the corrosion-inhibiting coating of air cooler heat exchange pipe, the component including following parts by weight: 10-20 parts of vinyl esters trees Rouge, 20-30 part acrylic resin, 3-8 parts of zinc yellows, 1-6 parts high titanium ash, 5-10 parts of feldspar powders, 3-8 parts of diamond dust, 5-10 parts Ceramic, 5-8 part nanosilica solution, 10-15 parts of Kynoar glues, 6-12 parts of ammonium polyphosphate, 5-20 parts change Property high chlorinated polyethylene resin, 10-20 parts of carboxylic acid polyalcohols, 5-15 parts of fluorine-carbon modified polysiloxanes, 1-5 portions of organic inhibitors, 1-3 parts of rust-inhibiting additives.

The present invention devises a kind of coating that antiseptic property is good, energy while the thermal conductance that guarantee heat exchanger tube has had Enough enhance the antiseptic property of heat transfer tube wall, the coating be able to maintain prolonged not blistering, non-corrosive, colour-fast, not long mildew, It does not fall off, the adhesion having had between heat transfer tube wall.

For the corrosion-inhibiting coating of air cooler heat exchange pipe, the component including following parts by weight: 15-20 parts of vinyl esters trees Rouge, 25-30 part acrylic resin, 3-6 parts of zinc yellows, 4-6 parts high titanium ash, 8-10 parts of feldspar powders, 4-8 parts of diamond dust, 7-10 parts Ceramic, 5-8 part nanosilica solution, 12-15 parts of Kynoar glues, 10-12 parts of ammonium polyphosphate, 15-20 parts Modified high chlorinated polyethylene resin, 10-16 part carboxylic acid polyalcohol, 10-15 parts of fluorine-carbon modified polysiloxanes, 2-4 parts of organic inhibitions Agent, 1-3 parts of rust-inhibiting additives.

For the corrosion-inhibiting coating of air cooler heat exchange pipe, the component including following parts by weight: 18 parts of vinyl ester resins, 30 Part acrylic resin, 4 parts of zinc yellows, 5 parts high titanium ash, 10 parts of feldspar powders, 8 parts of diamond dust, 8 parts of ceramics, 6 parts of nano-silicas SiClx solution, 13 parts of Kynoar glues, 11 parts of ammonium polyphosphate, 18 parts of modified high chlorinated polyethylene resins, 14 parts of carboxylic acids are poly- Close object, 13 parts of fluorine-carbon modified polysiloxanes, 3 portions of organic inhibitors, 1.5 parts of rust-inhibiting additives.

Organic inhibitor uses one of alkylammonium salt, imidazolines, phosphonates or a variety of.

Rust-inhibiting additive is the mixture of rust-inhibiting lubricant and rust preventive lubricating oil.

Compared with prior art, the present invention having the following advantages and benefits:

1, the corrosion-inhibiting coating of the invention for air cooler heat exchange pipe is while the thermal conductance that guarantee heat exchanger tube has had, energy Enough enhance the antiseptic property of heat transfer tube wall；

2, the present invention for the corrosion-inhibiting coating of air cooler heat exchange pipe be able to maintain prolonged not blistering, non-corrosive, it is colour-fast, Not long mildew is not fallen off；

3, adhesion of the present invention for having had between the corrosion-inhibiting coating and heat transfer tube wall of air cooler heat exchange pipe.

Specific embodiment

To make the objectives, technical solutions, and advantages of the present invention clearer, below with reference to embodiment, the present invention is made Further to be described in detail, exemplary embodiment of the invention and its explanation for explaining only the invention, are not intended as to this The restriction of invention.

Embodiment 1

The present invention is used for the corrosion-inhibiting coating of air cooler heat exchange pipe, the component including following parts by weight: 10-20 parts of vinyl Ester resin, 20-30 part acrylic resin, 3-8 parts of zinc yellows, 1-6 parts high titanium ash, 5-10 parts of feldspar powders, 3-8 parts of diamond dust, 5- 10 parts of ceramics, 5-8 parts of nanosilica solutions, 10-15 parts of Kynoar glues, 6-12 parts of ammonium polyphosphate, 5-20 Part modified high chlorinated polyethylene resin, 10-20 parts of carboxylic acid polyalcohols, 5-15 parts of fluorine-carbon modified polysiloxanes, 1-5 parts of organic inhibitions Agent, 1-3 parts of rust-inhibiting additives.Organic inhibitor uses one of alkylammonium salt, imidazolines, phosphonates or a variety of. Rust-inhibiting additive is the mixture of rust-inhibiting lubricant and rust preventive lubricating oil.

Embodiment 2

Based on embodiment 1, for the corrosion-inhibiting coating of air cooler heat exchange pipe, the component including following parts by weight: 15-20 parts Vinyl ester resin, 25-30 part acrylic resin, 3-6 parts of zinc yellows, 4-6 parts high titanium ash, 8-10 parts of feldspar powders, 4-8 parts of Buddha's warrior attendants Sand, 7-10 part ceramic, 5-8 parts of nanosilica solutions, 12-15 parts of Kynoar glues, 10-12 parts of polyphosphoric acids Ammonium, 15-20 parts of modified high chlorinated polyethylene resins, 10-16 parts of carboxylic acid polyalcohols, 10-15 parts of fluorine-carbon modified polysiloxanes, 2-4 Part organic inhibitor, 1-3 parts of rust-inhibiting additives.

Embodiment 3

Based on the above embodiment, for the corrosion-inhibiting coating of air cooler heat exchange pipe, the component including following parts by weight: 18 parts Vinyl ester resin, 30 parts of acrylic resins, 4 parts of zinc yellows, 5 parts high titanium ash, 10 parts of feldspar powders, 8 parts of diamond dust, 8 parts of ceramics Micro mist, 6 parts of nanosilica solutions, 13 parts of Kynoar glues, 11 parts of ammonium polyphosphate, 18 parts of modified high chlorinated polyethylenes Resin, 14 parts of carboxylic acid polyalcohols, 13 parts of fluorine-carbon modified polysiloxanes, 3 portions of organic inhibitors, 1.5 parts of rust-inhibiting additives.

Above-described specific embodiment has carried out further the purpose of the present invention, technical scheme and beneficial effects It is described in detail, it should be understood that being not intended to limit the present invention the foregoing is merely a specific embodiment of the invention Protection scope, all within the spirits and principles of the present invention, any modification, equivalent substitution, improvement and etc. done should all include Within protection scope of the present invention.

Claims

1. being used for the corrosion-inhibiting coating of air cooler heat exchange pipe, which is characterized in that the component including following parts by weight: 10-20 parts of second Alkenyl esters resin, 20-30 part acrylic resin, 3-8 parts of zinc yellows, 1-6 parts high titanium ash, 5-10 parts of feldspar powders, 3-8 parts of Buddha's warrior attendants Sand, 5-10 part ceramic, 5-8 parts of nanosilica solutions, 10-15 parts of Kynoar glues, 6-12 parts of ammonium polyphosphate, 5-20 parts of modified high chlorinated polyethylene resins, 10-20 parts of carboxylic acid polyalcohols, 5-15 parts of fluorine-carbon modified polysiloxanes, 1-5 parts it is organic Corrosion inhibiter, 1-3 part rust-inhibiting additive.

2. the corrosion-inhibiting coating according to claim 1 for air cooler heat exchange pipe, which is characterized in that including following parts by weight Several component: 15-20 parts of vinyl ester resins, 25-30 parts of acrylic resins, 3-6 parts of zinc yellows, 4-6 parts high titanium ash, 8-10 parts Feldspar powder, 4-8 part diamond dust, 7-10 parts of ceramics, 5-8 parts of nanosilica solutions, 12-15 parts of Kynoar glue Liquid, 10-12 part ammonium polyphosphate, 15-20 parts of modified high chlorinated polyethylene resins, 10-16 parts of carboxylic acid polyalcohols, 10-15 parts of fluorine carbon Modified polyorganosiloxane, 2-4 portion organic inhibitor, 1-3 parts of rust-inhibiting additives.

3. the corrosion-inhibiting coating according to claim 2 for air cooler heat exchange pipe, which is characterized in that including following parts by weight Several component: 18 parts of vinyl ester resins, 30 parts of acrylic resins, 4 parts of zinc yellows, 5 parts high titanium ash, 10 parts of feldspar powders, 8 parts of gold Emery, 8 parts of ceramics, 6 parts of nanosilica solutions, 13 parts of Kynoar glues, 11 parts of ammonium polyphosphate, 18 parts of modifications High chlorinated polyethylene resin, 14 parts of carboxylic acid polyalcohols, 13 parts of fluorine-carbon modified polysiloxanes, 3 portions of organic inhibitors, 1.5 parts of antirusts Additive.

4. the corrosion-inhibiting coating according to claim 1 for air cooler heat exchange pipe, which is characterized in that organic inhibitor uses One of alkylammonium salt, imidazolines, phosphonates are a variety of.

5. the corrosion-inhibiting coating according to claim 1 for air cooler heat exchange pipe, which is characterized in that rust-inhibiting additive is anti- The mixture of rust lubricating grease and rust preventive lubricating oil.