CN105838188A - Treating process of high-temperature-resistant tubular product for waste-heat utilization device - Google Patents

Abstract

The invention discloses a treating process of a high-temperature-resistant tubular product for a waste-heat utilization device .The treating process adopts the tubular product, the surface of the tubular product is coated with a high-temperature-resistant protective layer, the high-temperature-resistant protective layer is prepared from 16-18 parts of polyvinyl chloride resin, 18-21 parts of a brightener, 22-26 parts of masterbatch, 5-8 parts of butane, 12-15 parts of a stabilizer, 7-9 parts of an antioxidant, 9-11 parts of a crosslinking agent, 21-24 parts of epoxy resin, 5-7 parts of activated carbon, 50-55 parts of water and 8-12 parts of composite rare earth .The high-temperature-resistant performance of the tubular product is improved, and the utilization rate and the work efficiency of the tubular product are improved .

Description

The process technique of a kind of residual heat using device is high temperature resistant tubing

Technical field

The present invention relates to tubing technical field, particularly relate to the process of the high temperature resistant tubing of a kind of residual heat using device Technique.

Background technology

Reclaim industry produced waste heat during producing, effectively utilized according to individual's actual demand, from And energy-saving and cost-reducing purpose can be reached, economic benefit is notable as social benefit, and tubing is the important of residual heat using device Ingredient, in prior art, tubing is particularly easy to damaged in an environment of high temperature, and the learies of device improves, and pollutes Environment.

Summary of the invention

The technical problem to be solved is to provide the process technique of the high temperature resistant tubing of a kind of residual heat using device, resistance to High temperature tubing can improve the utilization rate of tubing and reduce learies, improves work efficiency.

For achieving the above object, the present invention provides following technical scheme: a kind of residual heat using device is high temperature resistant tubing Processing technique, including tubing, tube surfaces is coated with one layer of high temperature resistance protective layer, and high temperature resistance protective layer includes following several one-tenth Point:

Corvic 16-18 part

Brightener 18-21 part

Masterbatch 22-26 part

Butylene 5-8 part

Stabilizer 12-15 part

Antioxidant 7-9 part

Cross-linking agent 9-11 part

Epoxy resin 21-24 part

Activated carbon 5-7 part

Water 50-55 part

Compound rare-earth 8-12 part；

Brightener is the one in sodium benzoate or benzylideneacetone；Stabilizer is CH₄O₂Calcium zinc stabilizer, dibasic O-phthalic One in lead plumbate or barium stearate；Antioxidant is the mixture of antioxidant 1076 and antioxidant 1010；Cross-linking agent is polypropylene Acid esters；Compound rare-earth is adjuvant and includes following components by mass percentage: dysprosium: 9-15%, lanthanum: 4-7%, cerium: 14-16%, Praseodymium: 10-13%, neodymium: 9-11%, remaining is lanthanide series, and above lanthanide rare each component sum is 100%.

The process technique of aforesaid residual heat using device is high temperature resistant tubing, tube surfaces is coated with one layer of high temperature resistant protection Layer, high temperature resistance protective layer includes following several composition:

Corvic 16 parts

Brightener 18 parts

Masterbatch 22 parts

Butylene 5 parts

Stabilizer 12 parts

7 parts of antioxidant

Cross-linking agent 9 parts

Epoxy resin 21 parts

Activated carbon 5 parts

50 parts of water

Compound rare-earth 8 parts；

Brightener is the one in sodium benzoate or benzylideneacetone；Stabilizer is CH₄O₂Calcium zinc stabilizer, dibasic O-phthalic One in lead plumbate or barium stearate；Antioxidant is the mixture of antioxidant 1076 and antioxidant 1010；Cross-linking agent is polypropylene Acid esters；Compound rare-earth is adjuvant and includes following components by mass percentage: dysprosium: 9%, lanthanum: 4%, cerium: 14%, praseodymium: 10%, neodymium: 9%, remaining is lanthanide series, and above lanthanide rare each component sum is 100%.

The process technique of aforesaid residual heat using device is high temperature resistant tubing, tube surfaces is coated with one layer of high temperature resistant protection Layer, high temperature resistance protective layer includes following several composition:

Corvic 18 parts

Brightener 21 parts

Masterbatch 26 parts

Butylene 8 parts

Stabilizer 15 parts

9 parts of antioxidant

Cross-linking agent 11 parts

Epoxy resin 24 parts

Activated carbon 7 parts

55 parts of water

Compound rare-earth 12 parts；

Brightener is the one in sodium benzoate or benzylideneacetone；Stabilizer is CH₄O₂Calcium zinc stabilizer, dibasic O-phthalic One in lead plumbate or barium stearate；Antioxidant is the mixture of antioxidant 1076 and antioxidant 1010；Cross-linking agent is polypropylene Acid esters；Compound rare-earth is adjuvant and includes following components by mass percentage: dysprosium: 15%, lanthanum: 7%, cerium: 16%, praseodymium: 13%, Neodymium: 11%, remaining is lanthanide series, and above lanthanide rare each component sum is 100%.

The process technique of aforesaid residual heat using device is high temperature resistant tubing, the high temperature resistance protective layer on this tubing is specifically prepared Method is as follows:

(1) Corvic, Masterbatch and butylene, stabilizer are added in dispersion cylinder, control the temperature of dispersion cylinder at 35-40 DEG C, high-speed stirred is uniform, and mixing speed is 450-500r/min, and mixing time is 40-45min；

(2) adding epoxy resin, water and compound rare-earth, high-speed stirred 50min again in step (1), mixing speed is 700- 750r/min, controls the temperature of dispersion cylinder at 75-85 DEG C；

(3) in step (2), it is sequentially added into brightener, antioxidant, cross-linking agent and activated carbon again stir at normal temperatures and get final product To high-temperature resistant coating, being then coated with the surface at tubing, under room temperature, dry solidification i.e. can obtain this protective layer.

Employing technical scheme provides the benefit that: the high temperature resistant tubing protective layer suitability of present invention design is strong, Pollute little and low cost, not only there is excellent temperature rise effect, and there is stronger heat-resisting quantity, tubing can be made at high temperature In the environment of unaffected, add the life-span of tubing, decrease scrappage, and the preparation technology of tubing protective layer is simple, work Skill is adopted and uses water as solvent, reduce production cost, protect environment, improve work efficiency.

Detailed description of the invention

Embodiment 1

The present embodiment provides the process technique of the high temperature resistant tubing of a kind of residual heat using device, and including tubing, tube surfaces is coated with One layer of high temperature resistance protective layer, high temperature resistance protective layer includes following several composition:

Corvic 16 parts

Brightener 18 parts

Masterbatch 22 parts

Butylene 5 parts

Stabilizer 12 parts

7 parts of antioxidant

Cross-linking agent 9 parts

Epoxy resin 21 parts

Activated carbon 5 parts

50 parts of water

Compound rare-earth 8 parts；

Brightener is the one in sodium benzoate or benzylideneacetone；Stabilizer is CH₄O₂Calcium zinc stabilizer, dibasic O-phthalic One in lead plumbate or barium stearate；Antioxidant is the mixture of antioxidant 1076 and antioxidant 1010；Cross-linking agent is polypropylene Acid esters；Compound rare-earth is adjuvant and includes following components by mass percentage: dysprosium: 9%, lanthanum: 4%, cerium: 14%, praseodymium: 10%, neodymium: 9%, remaining is lanthanide series, and above lanthanide rare each component sum is 100%；

The concrete preparation method of protective layer on above-mentioned spring is as follows:

(1) Corvic, Masterbatch and butylene, stabilizer are added in dispersion cylinder, control the temperature of dispersion cylinder at 35 DEG C, High-speed stirred is uniform, and mixing speed is 450r/min, and mixing time is 40min；

(2) adding epoxy resin, water and compound rare-earth, high-speed stirred 50min again in step (1), mixing speed is 700r/ Min, controls the temperature of dispersion cylinder at 75 DEG C；

(3) in step (2), it is sequentially added into brightener, antioxidant, cross-linking agent and activated carbon again stir at normal temperatures and get final product To high-temperature resistant coating, being then coated with the surface at tubing, under room temperature, dry solidification i.e. can obtain this protective layer.

Embodiment 2

The present embodiment provides a kind of anticorrosion spring and preparation technology thereof, including tubing, tube surfaces be coated with one layer high temperature resistant Protective layer, high temperature resistance protective layer includes following several composition:

Corvic 18 parts

Brightener 21 parts

Masterbatch 26 parts

Butylene 8 parts

Stabilizer 15 parts

9 parts of antioxidant

Cross-linking agent 11 parts

Epoxy resin 24 parts

Activated carbon 7 parts

55 parts of water

Compound rare-earth 12 parts；

Brightener is the one in sodium benzoate or benzylideneacetone；Stabilizer is CH₄O₂Calcium zinc stabilizer, dibasic O-phthalic One in lead plumbate or barium stearate；Antioxidant is the mixture of antioxidant 1076 and antioxidant 1010；Cross-linking agent is polypropylene Acid esters；Compound rare-earth is adjuvant and includes following components by mass percentage: dysprosium: 15%, lanthanum: 7%, cerium: 16%, praseodymium: 13%, Neodymium: 11%, remaining is lanthanide series, and above lanthanide rare each component sum is 100%；

The concrete preparation method of protective layer on above-mentioned spring is as follows:

(1) Corvic, Masterbatch and butylene, stabilizer are added in dispersion cylinder, control the temperature of dispersion cylinder at 40 DEG C, High-speed stirred is uniform, and mixing speed is 500r/min, and mixing time is 45min；

(2) adding epoxy resin, water and compound rare-earth, high-speed stirred 50min again in step (1), mixing speed is 750r/ Min, controls the temperature of dispersion cylinder at 85 DEG C；

(3) in step (2), it is sequentially added into brightener, antioxidant, cross-linking agent and activated carbon again stir at normal temperatures and get final product To high-temperature resistant coating, being then coated with the surface at tubing, under room temperature, dry solidification i.e. can obtain this protective layer.

In addition to the implementation, the present invention can also have other embodiments.All employing equivalents or equivalent transformation shape The technical scheme become, all falls within the protection domain of application claims.

Claims (4)

1. a process technique for the high temperature resistant tubing of residual heat using device, including tubing, it is characterised in that: tube surfaces is coated with One layer of high temperature resistance protective layer, described high temperature resistance protective layer includes following several composition:

Corvic 16-18 part

Brightener 18-21 part

Masterbatch 22-26 part

Butylene 5-8 part

Stabilizer 12-15 part

Antioxidant 7-9 part

Cross-linking agent 9-11 part

Epoxy resin 21-24 part

Activated carbon 5-7 part

Water 50-55 part

Compound rare-earth 8-12 part；

Described brightener is the one in sodium benzoate or benzylideneacetone；Described stabilizer is CH₄O₂Calcium zinc stabilizer, two One in alkali lead phthalate or barium stearate；Described antioxidant is the mixing of antioxidant 1076 and antioxidant 1010 Thing；Described cross-linking agent is polyacrylate；Described compound rare-earth is adjuvant and includes following components by mass percentage: Dysprosium: 9-15%, lanthanum: 4-7%, cerium: 14-16%, praseodymium: 10-13%, neodymium: 9-11%, remaining is lanthanide series, each group of above lanthanide rare / and be 100%.

2. according to the process technique of the high temperature resistant tubing of the residual heat using device described in claim 1, it is characterised in that tubing table Topcoating is covered with one layer of high temperature resistance protective layer, and described high temperature resistance protective layer includes following several composition:

Corvic 16 parts

Brightener 18 parts

Masterbatch 22 parts

Butylene 5 parts

Stabilizer 12 parts

7 parts of antioxidant

Cross-linking agent 9 parts

Epoxy resin 21 parts

Activated carbon 5 parts

50 parts of water

Compound rare-earth 8 parts；

Described brightener is the one in sodium benzoate or benzylideneacetone；Described stabilizer is CH₄O₂Calcium zinc stabilizer, two One in alkali lead phthalate or barium stearate；Described antioxidant is the mixing of antioxidant 1076 and antioxidant 1010 Thing；Described cross-linking agent is polyacrylate；Described compound rare-earth is adjuvant and includes following components by mass percentage: Dysprosium: 9%, lanthanum: 4%, cerium: 14%, praseodymium: 10%, neodymium: 9%, remaining is lanthanide series, and above lanthanide rare each component sum is 100%.

3. according to the process technique of the high temperature resistant tubing of the residual heat using device described in claim 1, it is characterised in that tubing table Topcoating is covered with one layer of high temperature resistance protective layer, and described high temperature resistance protective layer includes following several composition:

Corvic 18 parts

Brightener 21 parts

Masterbatch 26 parts

Butylene 8 parts

Stabilizer 15 parts

9 parts of antioxidant

Cross-linking agent 11 parts

Epoxy resin 24 parts

Activated carbon 7 parts

55 parts of water

Compound rare-earth 12 parts；

Described brightener is the one in sodium benzoate or benzylideneacetone；Described stabilizer is CH₄O₂Calcium zinc stabilizer, two One in alkali lead phthalate or barium stearate；Described antioxidant is the mixing of antioxidant 1076 and antioxidant 1010 Thing；Described cross-linking agent is polyacrylate；Described compound rare-earth is adjuvant and includes following components by mass percentage: Dysprosium: 15%, lanthanum: 7%, cerium: 16%, praseodymium: 13%, neodymium: 11%, remaining is lanthanide series, and above lanthanide rare each component sum is 100%。

4. according to the process technique of the high temperature resistant tubing of the residual heat using device described in any claim in claim 1-3, its Being characterised by, the concrete preparation method of high temperature resistance protective layer on this tubing is as follows:

(1) Corvic, Masterbatch and butylene, stabilizer are added in dispersion cylinder, control the temperature of dispersion cylinder at 35-40 DEG C, high-speed stirred is uniform, and mixing speed is 450-500r/min, and mixing time is 40-45min；

(2) adding epoxy resin, water and compound rare-earth, high-speed stirred 50min again in step (1), mixing speed is 700- 750r/min, controls the temperature of dispersion cylinder at 75-85 DEG C；

(3) in step (2), it is sequentially added into brightener, antioxidant, cross-linking agent and activated carbon again stir at normal temperatures and get final product To high-temperature resistant coating, being then coated with the surface at tubing, under room temperature, dry solidification i.e. can obtain this protective layer.