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Zinc-coated steel-plated punch drawing lube oil and its production

A technology for stamping, drawing, and galvanizing steel sheets, which is used in lubricating compositions, petroleum industry, base materials, etc., can solve the problems of difficult continuous adsorption of oil film, prolonged production cycle, increased production cost, etc., to improve production efficiency and Economic benefits, lower production costs and longer service life

Inactive Publication Date: 2007-09-05
DALIAN SANDAAOKE CHEM
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, since the hard mold and the relatively soft blank to be processed relatively slide during the stamping and stretching process, the plastic deformation occurs on the entire blank including the contact surface, and the contact surface between the blank and the mold is very large, so it is difficult Forms a continuous fluid lubricating film over the entire friction surface
At present, the lubricating oil used in the stamping and stretching of galvanized steel sheets is due to problems in the selection of effective components and proportions, resulting in the formation of lubricating oil between the punch and die surfaces of the stamping die and the contact surface of the workpiece material. The oil film is difficult to be continuous and has poor adsorption. Under the strong stamping force, the formed oil film is easily damaged, so that the part of the plate and the mold may be in a dry friction state, which not only makes the surface of the stamping workpiece easy to scratch, but also the plate. The surface is easily oxidized and rusted (pit corrosion and spot corrosion, etc.), the smoothness and brightness decrease sharply, which brings troubles to the subsequent phosphating and spraying processes and seriously affects the appearance quality of the product; at the same time, it also intensifies the wear on the mold , affect the service life of the mold, increase the production cost, prolong the production cycle, and the manufacturer suffers a large economic loss

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] a. Get raw material components, each raw material accounts for the percentage of total weight as follows:

[0036] Machinery oil (No. 32, No. 10, No. 7) 45-55%, castor oil 2-4%, soybean oil 25-35%, sodium petroleum sulfonate 0.5-1.5%, zinc naphthenate 0.5-1.5%, phosphoric acid 2-4% of triethyl ester, 3-5% of chlorinated paraffin, 2-4% of zinc salt of thiophosbutanol (T202), 4-6% of poly-n-butyl vinyl ether (T601), fungicide (isothiazole Linone) 0.2~0.3%, each raw material can be selected arbitrarily within the listed value range, and the total value should be 100%;

[0037] b. Add mechanical oil into the reaction kettle, heat to 90-100°C, start the agitator at a speed of 750-850 rpm, then add sodium petroleum sulfonate, zinc naphthenate, chlorinated paraffin, and triethyl phosphate in sequence ester, and continuously stirred for 1.5~2.5h, then cooled down to 50~60°C;

[0038] c. Then add castor oil, soybean oil, and fungicide in turn, continue to stir for 0.5-1.5 hour...

Embodiment 2

[0042] a. Get raw material components, each raw material accounts for the percentage of total weight as follows:

[0043] Mechanical oil No. 32, No. 10, No. 7) 46.7%, castor oil 2%, soybean oil 35%, sodium petroleum sulfonate 1.5%, zinc naphthenate 1.5%, triethyl phosphate 4%, chlorinated paraffin 3% , thiophosbutanol zinc salt (T202) 2%, poly-n-butyl vinyl ether (T601) 4%, fungicide (isothiazolinone) 0.3%;

[0044] b. Add mechanical oil into the reaction kettle, heat to 90°C, start the agitator at a speed of 850 rpm, then add sodium petroleum sulfonate, zinc naphthenate, chlorinated paraffin, and triethyl phosphate in sequence, and continuously Stir for 1.5h, then cool down to 50°C;

[0045] c. Add castor oil, soybean oil, and fungicide in turn, continue to stir at the same speed for 1.5h, and drop to normal temperature;

[0046] d. Finally, add thiophosphobutanol zinc salt and poly-n-butyl vinyl ether in turn, and stir for 2.5 hours at a stirring speed of 75 rpm.

[0047]...

Embodiment 3

[0049]a. Get raw material components, each raw material accounts for the percentage of total weight as follows:

[0050] Mechanical oil No. 32, No. 10, No. 7) 52.8%, castor oil 4%, soybean oil 25%, sodium petroleum sulfonate 0.5%, zinc naphthenate 0.5%, triethyl phosphate 2%, chlorinated paraffin 5% , thiophosbutanol zinc salt (T202) 4%, poly-n-butyl vinyl ether (T601) 6%, fungicide (isothiazolinone) 0.2%;

[0051] b. Add mechanical oil into the reaction kettle, heat to 100°C, start the agitator at a speed of 750 rpm, then add sodium petroleum sulfonate, zinc naphthenate, chlorinated paraffin, and triethyl phosphate in sequence, and continuously Stir for 2.5h, then cool down to 60°C;

[0052] c. Add castor oil, soybean oil, and fungicide in turn, continue to stir at the same speed for 0.5h, and drop to normal temperature;

[0053] d. Finally, add thionobutanol zinc salt and poly-n-butyl vinyl ether in sequence, and stir for 1.5 hours at a stirring speed of 85 rpm.

[0054] ...

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PUM

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Abstract

A galvanized steel plate punch stretch lube oil consists of motor oil 45-55wt%, castor oil 2-4wt%, soya oil 25-35wt%, mersolates 0.5-1.5wt%, zinc naphthenate 0.5-1.5wt%, triethyl phosphate 2-4wt%, chlorinated paraffin 3-5wt%, butyl-octanol zinc salt phosphinothioyl 2-4wt%, poly-n-butyl vinyl ether 4-6wt% and bactericide 0.2-0.3wt%. The process is carried out by adding motor oil into reactor, heating to 90-100degree, agitating at 750-850 / min, adding into mersolates, zinc naphthenate, chlorinated paraffin and triethyl phosphate successively, agitating for 1.5-2.5hrs, lowering temperature to 50-60degree, adding into castor oil, soya oil and bactericide, agitating for 0.5-1.5hrs, lowering to normal temperature, adding into butyl-octanol zinc salt phosphinothioyl and poly-n-butyl vinyl ether, and agitating at 75-85 / min and agitating 1.5-2.5hrs. It has better oil-film continuity and adsorption and prevents punch work-piece from being scraped and corrosion.

Description

Technical field: [0001] The invention relates to a lubricating cooling liquid for stamping technology and a production method, in particular to a galvanized steel stamping drawing lubricating oil capable of preventing scratches and corrosion on the surface of a stamping workpiece and ensuring a smooth surface, and a production method thereof. Background technique: [0002] Stamping processing, also known as sheet metal stamping, is a method of processing parts of a certain size, shape and performance by applying pressure to the sheet through a mold to separate it or produce plastic deformation. During the stamping process, the metal material produces plastic shear deformation. If there is strong friction between the shear surface and the working surface of the mold, the local high temperature will cause "welding" and adhesive wear. Therefore, it is necessary to use a friction-reducing, Lubricant for cooling and cooling, in order to form a pressure-resistant, heat-resistant a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C10M159/06C10M101/00C10M135/10C10M129/46C10M137/04C10M145/24C10N40/20
Inventor 潘德顺陈忠孝王光连
Owner DALIAN SANDAAOKE CHEM
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