Extreme-pressure abrasion-resistant open gear oil

An extreme-pressure anti-wear agent and grinding-opening technology, which is applied in the petroleum industry, additives, lubricating compositions, etc., can solve the problems of insufficient anti-wear performance and high production costs, so as to improve the extreme pressure and anti-wear properties and ensure stickiness Adjunctive effect

Active Publication Date: 2012-09-26
上海福岛新材料科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The technical problem to be solved by the present invention is to provide an extreme pressure anti-wear open gear oil with excellent oxidation stability and thermal Stability, good adhesion, wate

Method used

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  • Extreme-pressure abrasion-resistant open gear oil

Examples

Experimental program
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Effect test

Embodiment 1

[0025] The present invention adopts the following components by weight: 25% of tackifier polyisobutylene, 1% of antirust agent benzotriazole derivative, 0.1% of antioxidant 2,6-di-tert-butyl p-cresol, anti-gun agent T901 Base silicone oil 5ppm, anti-emulsifier amine and ethylene oxide condensate 0.4%, extreme pressure and anti-wear agent nano-graphene 0.5%, cleansing and dispersing agent alkylbenzene high alkali value synthetic calcium sulfonate 0.2%, the balance is mineral oil .

[0026] Preparation method and steps of the present invention are as follows:

[0027] First, prepare nano-graphene powder by the Hummer method, then add the prepared nano-graphene powder and base oil into the base oil according to the ratio (1%~5%), place it in a planetary ball mill for 48 hours, and use the base oil Dilute the oil containing 1%~5% of nano-graphene to the required concentration of nano-carbon powder to 0.5%, and then add the above-mentioned other additives in proportion. The oil i...

Embodiment 2

[0029] The present invention adopts the following composition by weight: tackifier polymethacrylate 20%, antirust agent benzotriazole derivative 1.2%, antioxidant 2,6-di-tert-butylphenol 0.08%, antifoam Agent polysiloxane 10ppm, anti-emulsifier ethylene oxide propylene oxide copolymer 0.05%, extreme pressure and anti-wear agent nano-graphene 0.002%, detergent and dispersant hexenyl bisstearamide 0.5%, and the balance is mineral Oil.

[0030] Preparation method and steps of the present invention are as follows:

[0031] Firstly, the nano-graphene powder was prepared by the Hummer method, and then the prepared nano-graphene powder was added to the base oil according to the ratio (1%~5%) of the base oil, and placed in a planetary ball mill for treatment48. Use base oil to dilute the oil containing 1%~5% of nano-graphene to the required concentration of 0.002% of nano-carbon powder, and then add the above-mentioned other additives in proportion. The oil is placed in a strong ult...

Embodiment 3

[0033] The present invention adopts the following components by weight: tackifier hydrogenated styrene diene copolymer 32%, antirust agent thiadiazole derivative 2%, antioxidant tetrakis[β-(3,5-di-tert-butyl- 4-hydroxyphenyl) propionate] pentaerythritol ester 1%, polyether antifoam agent 25ppm, anti-emulsifier polyoxypropylene derivative D114 0.2%, extreme pressure antiwear agent 0.5%, detergent and dispersant stearin 2% monoglyceride and the balance is mineral oil.

[0034] Preparation method and steps of the present invention are as follows:

[0035] Firstly, the nano-graphene powder was prepared by the Humer method, and then the prepared nano-graphene powder was added to the base oil according to the proportion (1%~5%) of the base oil, and placed in a planetary ball mill for 48 hours. Use base oil to dilute the oil containing 1%~5% of nano-graphene to the required concentration of 0.5% of nano-carbon powder, and then add the above-mentioned other additives in proportion. ...

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Abstract

The invention discloses extreme-pressure abrasion-resistant open gear oil which is prepared from the following components by weight: 20-40% of tackifier, 1-2% of rust inhibitor, 0.08-1% of antioxygen, 5-50ppm of anti-foaming agent, 0.05-0.4% of demulsifying agent, 0.002-1% of extreme-pressure abrasion-resistant agent, 0.2-2% of purification dispersant and the balance being base oil, wherein the extreme-pressure abrasion-resistant agent refers to nanometer grapheme. By adding the nanometer grapheme to serve as the extreme-pressure abrasion-resistant agent, the extreme-pressure abrasion resistance of the gear oil is improved, an abrasion-resistant effect is remarkable and the abrasion loss can be reduced by 52%; by utilizing effective adhesive, clearing agent, antirust corrosion-resistant additive and the antioxygen, the adhesion, viscosity-temperature characteristic and antioxidant rust resistance of the oil are ensured; and by adding the dispersant, the problem of blockage caused by poor dispersibility of the nanometer grapheme which serves as a solid extreme-pressure agent is solved.

Description

technical field [0001] The invention relates to a gear oil, in particular to an extreme pressure anti-wear open gear oil. Background technique [0002] The existing open gear oils generally use mineral oil as the base oil, in addition to various additives, such as detergent and dispersants, anti-oxidant and anti-corrosion agents, demulsifiers, anti-foaming agents, oily agents and extreme pressure anti-wear agents. Since gears are under heavy loads during operation, good extreme pressure and anti-wear performance is an important criterion for evaluating the quality of gear oils. [0003] Traditional extreme pressure antiwear agents are mainly sulfur-containing and phosphorus-containing. It is difficult to achieve a suitable balance between the extreme pressure and antiwear properties and high temperature stability of such compounds. At the same time, it has a negative impact on the anti-emulsification of the gear, which will reduce the strength of the oil film and cause crac...

Claims

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Application Information

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IPC IPC(8): C10M125/02C10M161/00C10N30/06C10N30/02C10N30/10C10N30/12C10N40/04
Inventor 宋铁成赵嘉莹姬文琦宋传军
Owner 上海福岛新材料科技有限公司
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