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Nano-titanium oxide anti-wear additive and method for preparing nano-titanium oxide

A nano-titanium oxide and additive technology, applied in the field of nano-materials, can solve the problems of increased mechanical resistance, metal surface wear, secondary wear and scratches, etc., to improve PB value, protect metal surface wear, and prolong life. Effect

Active Publication Date: 2021-08-31
广州市倍加润特种润滑油有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Friction and wear have always been a big problem for all engineering manufacturing industries. With the current vigorous development of industry, industrial lubrication performance is also constantly seeking higher evolution. When mechanical components are running, friction between metal surfaces is repeated, cycle The longer the time, the metal surface will wear and tear, and the metal powder caused by the wear will continue to cause secondary wear and scratches on the metal actuating surface, the mechanical actuating resistance will increase, and the performance will decrease, thereby reducing the life of the equipment and increasing the cost.

Method used

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  • Nano-titanium oxide anti-wear additive and method for preparing nano-titanium oxide
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  • Nano-titanium oxide anti-wear additive and method for preparing nano-titanium oxide

Examples

Experimental program
Comparison scheme
Effect test

Embodiment example 1

[0025] The nano-titanium oxide anti-wear additive comprises: 93% of base oil; 3% of nano-titanium oxide; and 4% of pentaerythritol ester.

[0026] Wherein, the preparation method of nano-titanium oxide is:

[0027] Weigh 14.8g of titanium nitrate, 60g of pure water, and 3.75g of glycine, of which 0.05mol of titanium nitrate, 0.05mol of glycine, and a concentration of 4.44g / mol of titanium nitrate solution are put into a magnet and heated and stirred at 120°C 24h, until the water in the solution is completely evaporated and the gel appears. Put the sample on the heating plate in the fume hood at a temperature of 300-320°C. When the water reaches the critical point of complete drying, the gel solution will undergo a combustion reaction. , In a very short time, the instantaneous combustion reaction synthesizes nano-titanium oxide. Wherein, the particle size of the nano-titanium oxide is 100-200nm.

Embodiment example 2

[0029] The nanometer titanium oxide anti-wear additive, calculated by weight percentage, includes: 97% of base oil; 1% of nanometer titanium oxide; and 2% of sulfurized isobutylene.

[0030] Wherein, the preparation method of nano-titanium oxide is:

[0031] Weigh 17.76g of titanium nitrate, 60g of pure water, and 4.5g of glycine, of which 0.06mol of titanium nitrate, 0.06mol of glycine, and a concentration of 5.33g / mol of titanium nitrate solution are put into a magnet and heated and stirred at 130°C 20h, until the water in the solution is completely evaporated and the gel appears, put the sample on a heating plate in a fume hood at a temperature of 300-320°C, when the water reaches the critical point of complete drying, the gel solution will undergo a combustion reaction , In a very short time, the instantaneous combustion reaction synthesizes nano-titanium oxide. Wherein, the particle size of the nano-titanium oxide is 100-200nm.

Embodiment example 3

[0033] The anti-wear additive of nano titanium oxide, calculated by weight percentage, includes: 95% of base oil; 2% of nano titanium oxide; and 3% of sulfurized calcium alkylphenate.

[0034] Wherein, the preparation method of nano-titanium oxide is:

[0035] Weigh 23.7g of titanium nitrate, 60g of pure water, and 6g of aminoacetic acid, of which 0.08mol of titanium nitrate, 0.08mol of aminoacetic acid, and a concentration of 7.11g / mol of the titanium nitrate solution are placed in a magnet and heated and stirred at 100°C for 28h , until the water in the solution evaporates completely and becomes gelatinous. Put the sample on a heating plate in a fume hood at a temperature of 300-320°C. When the water reaches the critical point of complete drying, the gelatinous solution undergoes a combustion reaction. In a very short time, the instant combustion reaction synthesizes nano-titanium oxide. Wherein, the particle size of the nano-titanium oxide is 100-200nm.

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Abstract

The invention discloses a nano-titanium oxide anti-wear additive, which comprises: 93-97% of base oil; 1-3% of nano-titanium oxide; and 2-4% of extreme pressure anti-wear agent. The formulation of the anti-wear additive has excellent PB value and extreme pressure value when it is applied in lubricating oil through the composite effect of nano-titanium oxide and extreme pressure anti-wear agent. The nano-titanium oxide anti-wear additive is suitable for various vehicle lubricating oils. Such as: gasoline, diesel engine lubricating oil, gear oil, industrial cutting oil, hydraulic oil and various lubricating products suitable for lubricating parts.

Description

technical field [0001] The invention relates to the technical field of nanometer materials, in particular to a nano-titanium oxide anti-wear additive and a method for preparing nano-titanium oxide. Background technique [0002] Friction and wear have always been a big problem for all engineering manufacturing industries. With the current vigorous development of industry, industrial lubrication performance is also constantly seeking higher evolution. When mechanical components are running, friction between metal surfaces is repeated, cycle The longer the time, the metal surface will definitely be worn, and the metal powder caused by the wear will continue to cause secondary wear and scratches on the metal actuating surface, the mechanical actuating resistance will increase, the performance will decrease, and the equipment life will be reduced and the cost will increase. Contents of the invention [0003] The object of the present invention is to provide a nano-titanium oxid...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C10M125/10C10M141/00C10M141/02C10M141/08C01G23/053C10N30/06
CPCC01G23/053C01P2004/61C10M125/10C10M141/00C10M141/02C10M141/08C10M2201/062C10M2207/283C10M2219/022C10M2219/088C10N2030/06C10N2010/04
Inventor 颜亿方
Owner 广州市倍加润特种润滑油有限公司
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