Multiple-effect type semi-synthetic micro-emulsion cutting solution

A semi-synthetic and micro-emulsion technology, applied in lubricating compositions, petroleum industry, additives, etc., can solve the problems of large environmental pollution and poor biodegradability, and achieve good biological stability, good environmental protection, excellent corrosion inhibition and anti-corrosion. The effect of rust properties

Active Publication Date: 2013-02-13
无锡纳润特科技有限公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the biodegradability of these two types of raw material

Method used

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  • Multiple-effect type semi-synthetic micro-emulsion cutting solution
  • Multiple-effect type semi-synthetic micro-emulsion cutting solution
  • Multiple-effect type semi-synthetic micro-emulsion cutting solution

Examples

Experimental program
Comparison scheme
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Example Embodiment

[0042] Example 1

[0043] First prepare the phosphorus-containing borate water-based lubricant:

[0044] (1) Put boric acid, raw material A, and glycerol into the reaction kettle, and conduct the reaction under vacuum and constant stirring. The reaction temperature is 80°C and the reaction time is 120 minutes;

[0045] (2) Turn off the vacuum, cool the temperature in the reactor to below 50℃, then slowly add phosphorus pentoxide to the reactor, keep stirring, control the reaction temperature below 90℃, and stir for 1 hour after the addition is complete;

[0046] (3) Control the temperature below 90℃, add pure water to the reactor and stir for 60 minutes;

[0047] (4) The temperature of the reactor is lowered to room temperature, and the material is discharged to obtain a phosphorus-containing borate water-based lubricant.

[0048] Then mix tap water, monoethanolamine, benzotriazole, boric acid, No. 5 white oil, base oil 150SN, tall oil fatty acid, sebacic acid, borophosphate water-based ...

Example Embodiment

[0049] Example 2

[0050] First prepare the phosphorus-containing borate water-based lubricant:

[0051] (1) Put boric acid, raw material A, and glycerol into the reaction kettle, and conduct the reaction under vacuum and continuous stirring. The reaction temperature is 120°C and the reaction time is 60 minutes;

[0052] (2) Turn off the vacuum, cool the temperature in the reactor to below 50℃, then slowly add phosphorus pentoxide to the reactor, keep stirring, control the reaction temperature below 90℃, and stir for 50 minutes after the addition is complete;

[0053] (3) Control the temperature below 90℃, add pure water to the reactor and stir for 70 minutes;

[0054] (4) The temperature of the reactor is lowered to room temperature, and the material is discharged to obtain a phosphorus-containing borate water-based lubricant.

[0055] Then mix tap water, monoethanolamine, benzotriazole, boric acid, No. 5 white oil, base oil 150SN, tall oil fatty acid, sebacic acid, borophosphate water-...

Example Embodiment

[0056] Example 3

[0057] First prepare the phosphorus-containing borate water-based lubricant:

[0058] (1) Put boric acid, raw material A, and glycerol into the reaction kettle, and conduct the reaction under vacuum and constant stirring conditions, the reaction temperature is 100°C, and the reaction time is 100 minutes;

[0059] (2) Turn off the vacuum, cool the temperature in the reactor to below 50℃, then slowly add phosphorus pentoxide to the reactor, keep stirring, control the reaction temperature below 90℃, and stir for 70 minutes after the addition is complete;

[0060] (3) Control the temperature below 90℃, add pure water to the reactor and stir for 80 minutes;

[0061] (4) The temperature of the reactor is lowered to room temperature, and the material is discharged to obtain a phosphorus-containing borate water-based lubricant.

[0062] Then mix tap water, monoethanolamine, benzotriazole, boric acid, No. 5 white oil, base oil 150SN, tall oil fatty acid, sebacic acid, borophosp...

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Abstract

The invention relates to a multiple-effect type semi-synthetic micro-emulsion cutting solution. The multiple-effect type semi-synthetic micro-emulsion cutting solution respectively comprises the following raw components in percentage by mass as follows: 9-12% of industrial monoethanolamine, 0.1-0.2% of industrial benzotriazole, 8-10% of industrial boric acid, 14-18% of 5# white oil, 14-18% of base oil 150 SN, 4-6% of industrial tall oil fatty acid, 0.8-1.2% of industrial sebacic acid, 4-8% of water-based lubricant containing phosphorus boric acid ester, 0.8-1.5% of industrial propylene glycol phenyl ether, 1-3% of industrial fatty alcohol ether, 1.5-2.5% of industrial 1,3,5-tri(2-ethocy)-hexahydric triazine, 0.1-0.2% of industrial organic silicon defoaming agent, and the balance of water, wherein the sum of mass percentages of the various raw components is a 100 percent. The multiple-effect type semi-synthetic micro-emulsion cutting solution disclosed by the invention has good lubrication extreme-pressure property and biodegradability and is free from environment pollution.

Description

Technical field [0001] The invention relates to the technical field of lubricants, in particular to a semi-synthetic metal processing cutting fluid. Background technique [0002] In the current metalworking fluid industry, for harsh and difficult-to-process materials and processes (materials such as stainless steel, high-hard alloy steel, etc.; processes such as tapping, deep hole drilling, reaming, etc.), high lubrication and extreme pressure properties must be used Metal working fluid, sometimes even must be processed with cutting oil. At the current technical level, the most common use is to increase the content of the base oil in the cutting fluid and use chlorinated paraffin as an extreme pressure lubricant to ensure its lubrication and extreme pressure performance. However, the biodegradability of these two types of raw materials is extremely poor, and the pollution to the environment is great. Summary of the invention [0003] In view of the above-mentioned problems in th...

Claims

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Application Information

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IPC IPC(8): C10M173/02C10M139/00C10N30/06C10N40/22
Inventor 宋小林杨金兵
Owner 无锡纳润特科技有限公司
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