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A kind of naphthene-yttrium tungsten molybdenum calcium friction modifier and production method thereof

A technology of friction modifier and production method, which is applied in the direction of additives, petroleum industry, lubricating composition, etc., which can solve the problems of unsatisfactory non-seizure load anti-adhesion, corrosion, and poor performance, so as to reduce the coefficient of friction , cost reduction, good anti-oxidation performance

Active Publication Date: 2017-12-08
董文猷
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Improving the fuel economy of engine lubricating oil by adding friction modifiers can help reduce wear and save energy, which is an important direction for future development; however, although friction modifiers containing elements such as S and P have excellent tribological properties, But it will bring more serious corrosion problems; organic metal molybdenum friction improvement
[0005] Although the anti-friction performance of the oil has been improved, the organic molybdenum additives in the prior art have poor performance under extremely harsh working conditions, such as high temperature and high load conditions. Sex is also unsatisfactory

Method used

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  • A kind of naphthene-yttrium tungsten molybdenum calcium friction modifier and production method thereof
  • A kind of naphthene-yttrium tungsten molybdenum calcium friction modifier and production method thereof
  • A kind of naphthene-yttrium tungsten molybdenum calcium friction modifier and production method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] A production method of a naphthene-yttrium tungsten molybdenum calcium friction modifier, the production method steps are as follows:

[0023] (1) According to the weight ratio of yttrium powder: tungsten powder is 1:1, mix the yttrium powder and tungsten powder evenly and put them into the reaction kettle. Add cyclopentane of 45% of the total weight of yttrium powder and tungsten powder and mix and stir evenly;

[0024] (2) Add 4% zinc dialkyl dithiophosphate in the reaction kettle, then heat up to 200°C, add molybdenum powder with 20% of the total weight of yttrium powder and tungsten powder, add the total weight of yttrium powder and tungsten powder 15% calcium hydroxide by weight, mixed and stirred evenly, reacted for 20 hours, and the molybdenum powder was ground into 120 mesh powder;

[0025] (3) Cool to room temperature after the color of the reactant turns reddish brown, let stand for 20 hours, filter, the filtrate is a transparent reddish brown finished produc...

Embodiment 2

[0027] A production method of a naphthene-yttrium tungsten molybdenum calcium friction modifier, the production method steps are as follows:

[0028] (1) According to the weight ratio of yttrium powder: tungsten powder is 1:1, mix the yttrium powder and tungsten powder evenly and put them into the reaction kettle. Add cyclohexane of 51% of the total weight of yttrium powder and tungsten powder and mix and stir evenly;

[0029] (2) Add zinc dialkyldithiophosphate with 8% of the total weight of the reaction materials in the reactor, then raise the temperature to 150°C, add molybdenum powder with a total weight of 23% of yttrium powder and tungsten powder, add the total weight of yttrium powder and tungsten powder Calcium hydroxide of 17% by weight, mixed and stirred evenly, reacted for 85 hours, and described molybdenum powder was to be ground into 160 mesh powders;

[0030] (3) Cool to room temperature after the color of the reactant turns reddish brown, let stand for 28 hours...

Embodiment 3

[0032] A production method of a naphthene-yttrium tungsten molybdenum calcium friction modifier, the production method steps are as follows:

[0033] (1) According to the weight ratio of yttrium powder: tungsten powder is 1:1, mix the yttrium powder and tungsten powder evenly and put them into the reaction kettle. Add cycloundecane of 55% of the total weight of yttrium powder and tungsten powder and mix and stir evenly;

[0034](2) Add zinc dialkyldithiophosphate with 10% of the total weight of the reaction materials in the reactor, then raise the temperature to 100°C, add molybdenum powder with 25% of the total weight of yttrium powder and tungsten powder, add the total weight of yttrium powder and tungsten powder 20% calcium hydroxide by weight, mixed and stirred evenly, reacted for 140 hours, and the molybdenum powder was ground into 200 mesh powder;

[0035] (3) Cool to room temperature after the color of the reactant turns reddish brown, let stand for more than 20 hours,...

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Abstract

The invention relates to a friction modifier for lubricating oil, in particular to a naphthene-yttrium tungsten molybdenum calcium friction modifier and a production method thereof. The napthene-yttrium tungsten molybdenum calcium friction modifier is prepared from yttrium powder, tungsten powder, naphthene powder, zinc dialkyl dithiophosphate, molybdenum powder and calcium hydroxide, the production process is safe, environmentally friendly, free of environmental pollution, and the obtained naphthene-yttrium tungsten molybdenum calcium friction modifier has the high anti-friction and anti-wear property, bearing property and oxidation resistance, no corrosiveness exists, the modifier is added into the lubricating oil, and the lubricating oil has the good wear resistance, so that mechanical components can be operated safely and stably under various harsh conditions, and mechanical equipment cannot be corroded.

Description

technical field [0001] The invention relates to a friction modifier for lubricating oil, in particular to a naphthene-yttrium tungsten molybdenum calcium friction modifier and a production method thereof. Background technique [0002] In the process of mechanical operation, friction and wear are ubiquitous natural phenomena. Friction loses about one-third of the world's energy. Wear is one of the three most important forms of damage and failure of materials and equipment. Modern friction research shows that 1 / 3-1 / 2 of the world's energy is wasted in friction loss in various forms, and the economic loss is huge. Taking a car as an example, only 1 / 3 of the power from the engine is transmitted to the ground, and the rest Power is consumed in self-friction. By reducing self-friction consumption, the power of the engine can be greatly increased, thereby achieving the effect of energy saving. In addition to friction loss, various mechanical wear occurs from time to time. Accord...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C10M139/00C10M141/12C10M159/12C10M163/00C10N30/06C10N30/10C10N40/25
CPCC10M139/00C10M141/12C10M159/12C10M163/00C10M2201/05C10M2201/062C10M2207/163C10M2223/045C10N2030/06C10N2030/10C10N2030/54C10N2040/252C10N2040/255C10N2010/04
Inventor 董文猷董世康韦秋利庄杰钟华董世忠董世红
Owner 董文猷