CN107254347A - A kind of stainless steel processing oil and preparation method thereof - Google Patents

Abstract

The invention provides a kind of stainless steel processing oil, it includes following components in percentage by weight：Olefine sulfide 2 4%；Fatty acid ester 4 10%；PETO 2 5%；BASF Irgamet 39 0.2 0.5%；Liquid octyl group butyl diphenylamines 0.5 1.0%；Phosphate amine salt 0.5 1.5%；Autonomous synthetic ester 5 10%；Ethylhexyl stearate 2 5%；Present invention also offers a kind of preparation method of stainless steel processing oil.The present invention can ensure cooling, lubrication, infiltration and the cleaning performance of cutting fluid compared to prior art, utilize the compounding surface filming technology of additive, in the rapid absorption film-forming of workpiece surface, reduce the direct friction between cutter and workpiece, extreme boundary lubrication performance is improved to greatest extent, extend cutting-tool's used life, it is adaptable to heavy load processing technology in stainless steel.

Description

A kind of stainless steel processing oil and preparation method thereof

Technical field

The present invention relates to steel processing oil field, in particular to a kind of stainless steel processing oil and preparation method thereof.

Background technology

Ferrous materials are the important foundations of national economy, all the time in occupation of consequence in whole material big family. With continuing to develop and scientific and technological renewal for national economy, the trend development of following stainless steel is concentrated mainly on reinforcement and plays it certainly Body advantage, can have the property stainless steel used under specific condition, while its development ＆ production cost how is reduced, It is also following direction.

Among these, stainless steel alreadys exceed centenary history so far.According to product institutional framework, stainless steel can divide For martensitic stain less steel, ferritic stainless steel, austenitic stainless steel, two phase stainless steel etc.；Can be with according to the chemical composition in steel It is divided into straight-chromiun stainless steel, nickel and stainless steel etc..Stainless steel rust-proof mechanism is based primarily upon a large amount of chromiums of addition：On the one hand it is because chromium makes The electrode potential of ferrochrome steel is improved, especially reach 1/8 when chromium content, 2/8,3/8 ... atomic ratio when, fe-cr alloy The electrode potential of steel is in the raising of great-jump-forward；On the other hand, under corrosive medium, chromium can cause stainless steel surfaces to generate one The oxidation film of layer firm compact, so as to suppress further corrosion.

Compared with carbon constructional quality steel, stainless steel material adds the alloying elements such as Cr, Ni, N, Nb, Mo.These alloys The increase of element, not only increases the corrosion resistance of steel, and the mechanical performance to stainless steel also has a certain impact.Such as geneva stainless steel 4Cr13 is compared with No. 45 medium carbon steel, with identical carbon content, but relative machinability only has the 58% of No. 45 steel；Ovshinsky Body stainless steel 1Cr18Ni9Ti only has 40%, and austenite-ferrite two-phase stainless steel toughness is high, machinability is worse.

In actual processing, cut stainless steel and be usually associated with breaking, the generation of viscous knife phenomenon.Because stainless steel is in cutting When plastic deformation it is big, the cutting of generation is not easily broken, easily bonded, and causes in working angles that processing hardening is serious, walks each time Knife is all to cutting generation hardened layer next time, by accumulating layer by layer, hardness of the stainless steel in working angles it is increasing, it is necessary to Cutting force also increase.The generation of work hardening layer, cutting force increases the friction necessarily caused between cutter and workpiece Increase, cutting temperature is also increased.Also, the thermal conductivity factor of stainless steel is smaller, and radiating condition is poor, a large amount of cutting heats concentrate knife Between tool and workpiece, deteriorate machined surface, had a strong impact on the quality of machined surface.Moreover, the rise of cutting temperature Tool wear can be aggravated, producing cutter rake face, crescent moon is hollow, and cutting edge produces breach, so as to influence workpiece surface quality, drops Low operating efficiency, adds production cost.

Thus, when metal skilled worker cuts, compared with ordinary carbon steel, stainless steel is under the conditions of same hardness, its extension Rate is much greater, that is, " tacky " described in people, while the density ratio carbon steel of stainless steel is big, cuts the power consumption needed Greatly, the heat of generation is big, and the temperature of formation is high, easily burns knife.

Because the machinability of stainless steel is poor, have higher to the cooling of cutting fluid, lubrication, infiltration and cleaning performance It is required that, conventional cutting fluid has following a few classes：The mineral oil such as emulsion, sulfurized oil and machine oil, bobbin oil.These current routines Cutting fluid is all single certain one of processing technology for meeting stainless steel, such as (1) emulsion：The relatively common type of cooling, tool There are preferably cooling, cleaning, greasy property, be usually used in stainless steel rough turn.(2) sulfurized oil：Can be in metal surface in working angles High-melting-point sulfide is formed, it is and survivable at high temperature, with good lubrication, and there is certain cooling effect, It is generally used for drilling, fraising and tapping.(3) mineral oil such as machine oil, bobbin oil：Its greasy property preferably, but is cooled down and permeability It is poor, it is adaptable to outer circle finish turning.For stainless steel machinability is poor, easily breaking glues the situation such as knife in processing, it is main at present to use Increase the amount of extreme pressure agent and use import synthetic ester, thus greatly improve the cost and price of oil product.

The content of the invention

In consideration of it, the invention provides a kind of stainless steel processing oil and preparation method thereof, it is ensured that the cooling of cutting fluid, Lubrication, infiltration and cleaning performance, using the compounding surface filming technology of additive, in the rapid absorption film-forming of workpiece surface, are reduced Direct friction between cutter and workpiece, improves extreme boundary lubrication performance to greatest extent, extends cutting-tool's used life, it is adaptable to To heavy load processing technology in stainless steel.

Therefore, on the one hand, the invention provides a kind of stainless steel processing oil, it includes following components in percentage by weight：

Surplus is mineral type base oil.

Further, a kind of above-mentioned stainless steel processing oil includes following components in percentage by weight：Olefine sulfide 3-4%； Fatty acid ester 6-8%；PETO 3-4%；The 0.3-0.4% of BASF Irgamet 39；Liquid octyl group butyl hexichol Amine 0.6-0.9%；Phosphate amine salt 0.8-1.2%；Autonomous synthetic ester 6-9%；Ethylhexyl stearate 3-4%；Surplus is mineral Type base oil.

Further, a kind of above-mentioned stainless steel processing oil includes following components in percentage by weight：Olefine sulfide 3.5%； Fatty acid ester 7%；PETO 3.5%；BASF Irgamet 39 0.35%；Liquid octyl group butyl diphenylamines 0.8%；Phosphate amine salt 1%；Autonomous synthetic ester 7.5%；Ethylhexyl stearate 3.5%；Surplus is mineral type base oil.

Further, above-mentioned olefine sulfide is olefine sulfide GS440.

Further, above-mentioned fatty acid ester is fatty acid ester RC2317.

Further, above-mentioned liquid octyl group butyl diphenylamines is BASF IRGANOX L57 liquid octyl group butyl diphenylamines.

Further, above-mentioned phosphate amine salt is the AW6110 phosphate amine salts of KING chemical companies.

Further, above-mentioned autonomous synthetic ester includes following components in percentage by weight：Trimethylolpropane 25%；It is stearic Acid 20%；Oleic acid 30%；Dimeric dibasic acid 25%.

Further, above-mentioned mineral type base oil is hydrogenation mineral oil.

On the other hand, the invention provides a kind of preparation method of stainless steel processing oil, it comprises the following steps：

1) according to above-mentioned proportioning, prepare stainless steel processing oil prepares material；

2) mineral type base oil is first added in reactor, sequentially adds olefine sulfide, fatty acid ester and pentaerythrite Oleate, heats while stirring, and temperature is no more than 100 DEG C, stirs 30 minutes；

3) by BASF Irgamet 39, liquid octyl group butyl diphenylamines, phosphate amine salt, autonomous synthetic ester, stearic acid Different monooctyl ester is sequentially added in reactor, continuous heating, and temperature is no more than 100 DEG C, and stirs 1 hour；

4) outward appearance of oil product, cooling detection are observed.

A kind of stainless steel processing oil that the present invention is provided and preparation method thereof has advantages below compared to prior art：

1) all processing technologys of stainless steel metal are met；

2) in stainless steel process, excellent greasy property ensures workpiece surface quality；

3) by autonomous absorption film-forming technology, greasy property, tool life are improved；

4) from synthetic ester technology, cost advantage.

Embodiment

The exemplary embodiment of the disclosure is described in more detail below.Although showing the exemplary implementation of the disclosure Example, it being understood, however, that may be realized in various forms the disclosure without that should be limited by embodiments set forth here.On the contrary, These embodiments are provided to facilitate a more thoroughly understanding of the present invention, and can by the scope of the present disclosure conveying to completely Those skilled in the art.

Embodiment one：

1. olefine sulfide GS440 2% is added, 2. fatty acid ester RC2317 6%, 3. PETO 2%, 4. bar This husband Irgamet 39 0.2%, 5. BASF IRGANOX L57 liquid octyl group butyl diphenylamines 0.5%, 6. AW6110 phosphoric acid Ester amine salt 0.5%, 7. autonomous synthetic ester 8%, 8. Ethylhexyl stearate 2%, 9. mineral type base oil 78.8%.

The preparation method of the stainless steel processing oil, it is characterised in that comprise the following steps：

1) according to above-mentioned proportioning, prepare stainless steel processing oil prepares material；

2) mineral type base oil is first added in reactor, sequentially adds olefine sulfide, fatty acid ester and pentaerythrite Oleate, heats while stirring, and temperature is no more than 100 DEG C, stirs 30 minutes；

3) by BASF Irgamet 39, liquid octyl group butyl diphenylamines, phosphate amine salt, autonomous synthetic ester, stearic acid Different monooctyl ester is sequentially added in reactor, continuous heating, and temperature is no more than 100 DEG C, and stirs 1 hour；

4) outward appearance of oil product, cooling detection are observed.

Wherein, autonomous synthetic ester includes following components in percentage by weight：Trimethylolpropane 25%；Stearic acid 20%； Oleic acid 30%；Dimeric dibasic acid 25%.The autonomous synthetic ester can be prepared using following methods：

1) according to above-mentioned proportioning, prepare autonomous synthetic ester prepares material；

2) trimethylolpropane, stearic acid, oleic acid, dimeric dibasic acid are added in reactor together, is warming up to 180 DEG C, reaction 4 Hour；

3) 210 DEG C are continuously heating to, continues to react 2 hours, cooling detection.

Embodiment two：

Add olefine sulfide GS440 4%, fatty acid ester RC2317 4%, PETO 4%, BASF Irgamet 39 0.5%, BASF IRGANOX L57 liquid octyl group butyl diphenylamines 0.5%, AW6110 phosphate amine salts 1%, autonomous synthetic ester 5%, Ethylhexyl stearate 3%, base oil 78%.

Embodiment three：

Add olefine sulfide GS440 3%, fatty acid ester RC2317 10%, PETO 5%, BASF Irgamet 39 0.5%, BASF IRGANOX L57 liquid octyl group butyl diphenylamines 1%, AW6110 phosphate amine salts 1.5%, autonomous synthetic ester 10%, Ethylhexyl stearate 5%, base oil 64%.

Example IV：

Add olefine sulfide GS440 3%, fatty acid ester RC23178%, PETO 3%, BASF Irgamet 39 0.3%, BASF IRGANOX L57 liquid octyl group butyl diphenylamines 0.9%, AW6110 phosphate amine salts 1.2%, autonomous synthetic ester 6%, Ethylhexyl stearate 4%, base oil 73.6%.

Embodiment five：

Add olefine sulfide GS4404%, fatty acid ester RC23177%, PETO 4%, BASF Irgamet 39 0.4%, BASF IRGANOX L57 liquid octyl group butyl diphenylamines 0.6%, AW6110 phosphate amine salts 0.8%, autonomous synthetic ester 9%, Ethylhexyl stearate 3%, base oil 71.2%.

Embodiment six：

Add olefine sulfide GS4403.5%, fatty acid ester RC23177%, PETO 3.5%, BASF Irgamet 390.35%, BASF IRGANOX L57 liquid octyl group butyl diphenylamines 0.8%, AW6110 phosphate amine salts 1%, autonomous synthetic ester 7.5%, Ethylhexyl stearate 3.5%, base oil 72.85%.

Add olefine sulfide GS4402%, fatty acid ester RC23172%, PETO 5%, sulfurized lard 2%, The dimethyl Pyrogentisinic Acid 0.2% of chlorinated paraffin 10%, 2,6, base oil 60N 28.8%, base oil 150SN 50%.

The experimental data contrast of the present embodiment 1-6 and comparative example is as shown in the table：

	PB values	Wear scar diameter	Cost
				Embodiment one	92KG	0.365	9.55
Embodiment two	92KG	0.36	9.83
				Embodiment three	98KG	0.36	9.81
Example IV	93KG	0.375	10.01
				Embodiment five	94KG	0.37	10.22
Embodiment six	96KG	0.35	9.95
				Comparative example	90KG	0.38	10.75

PB values：When determining lubricant extreme pressure property with four ball method, do not occur seizing maximum load under prescribed conditions, Represented with newton (or kg), sometimes referred to as highest film strength.PB values are bigger, and the extreme pressure property for representing oil product is better.

Wear scar diameter：Under certain temperature, rotating speed, load and the duration of runs, load-bearing steel ball surface causes abrasion because of friction The size of spot diameter is mill mark, and mill mark is smaller, illustrates that the antiwear property of oil product, lubricity are better.

The PB values of oil product are bigger, and wear scar diameter is smaller, and the protectiveness for cutter is better, and corresponding cutter life may It can extend.

According to above-mentioned contrast, it can be seen that embodiment 1 to 6 is straight in PB values and mill spot compared to comparative example (prior art) All improved on footpath, so that the present embodiment 1 to 6 provide not only outstanding extreme boundary lubrication, Er Qieyan in cutting Cutter life is grown.

Meanwhile, pass through the contrast of cost, it can be seen that apply example 1 to 6 and obtained compared to comparative example (prior art) in cost Obtained reduction.

Thus, a kind of stainless steel processing oil that the present embodiment is provided and preparation method thereof has following compared to prior art Advantage：

1) all processing technologys of stainless steel metal are met；

2) in stainless steel process, excellent greasy property ensures workpiece surface quality；

3) by autonomous absorption film-forming technology, greasy property, tool life are improved；

4) from synthetic ester technology, cost advantage.

Obviously, those skilled in the art can carry out the essence of various changes and modification without departing from the present invention to the present invention God and scope.So, if these modifications and variations of the present invention belong to the scope of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to comprising including these changes and modification.

Claims (10)

1. a kind of stainless steel processing oil, it is characterised in that including following components in percentage by weight：

2. a kind of stainless steel processing oil according to claim 1, it is characterised in that include the group of following percentage by weight Point：Olefine sulfide 3-4%；Fatty acid ester 6-8%；PETO 3-4%；The 0.3- of BASF Irgamet 39 0.4%；Liquid octyl group butyl diphenylamines 0.6-0.9%；Phosphate amine salt 0.8-1.2%；Autonomous synthetic ester 6-9%；Stearic acid Different monooctyl ester 3-4%；Surplus is mineral type base oil.

3. a kind of stainless steel processing oil according to claim 2, it is characterised in that include the group of following percentage by weight Point：Olefine sulfide 3.5%；Fatty acid ester 7%；PETO 3.5%；BASF Irgamet 39 0.35%；Liquid Octyl group butyl diphenylamines 0.8%；Phosphate amine salt 1%；Autonomous synthetic ester 7.5%；Ethylhexyl stearate 3.5%；Surplus is ore deposit Thing type base oil.

4. according to a kind of any described stainless steel processing oils of claim 1-3, it is characterised in that the olefine sulfide is vulcanization Alkene GS440.

5. according to a kind of any described stainless steel processing oils of claim 1-3, it is characterised in that the fatty acid ester is fat Acid esters RC2317.

6. according to a kind of any described stainless steel processing oils of claim 1-3, it is characterised in that the liquid octyl group butyl two Aniline is BASF IRGANOX L57 liquid octyl group butyl diphenylamines.

7. according to a kind of any described stainless steel processing oils of claim 1-3, it is characterised in that the phosphate amine salt is The AW6110 phosphate amine salts of KING chemical companies.

8. according to a kind of any described stainless steel processing oils of claim 1-3, it is characterised in that the autonomous synthetic ester includes Following components in percentage by weight：Trimethylolpropane 25%；Stearic acid 20%；Oleic acid 30%；Dimeric dibasic acid 25%.

9. according to a kind of any described stainless steel processing oils of claim 1-3, it is characterised in that the mineral type base oil is It is hydrogenated with mineral oil.

10. a kind of preparation method of stainless steel processing oil, it is characterised in that comprise the following steps：

1) according to any described proportionings of claim 1-9, prepare stainless steel processing oil prepares material；

2) mineral type base oil is first added in reactor, sequentially adds olefine sulfide, fatty acid ester and pentaerythrite oleic acid Ester, heats while stirring, and temperature is no more than 100 DEG C, stirs 30 minutes；

3) it is BASF Irgamet 39, liquid octyl group butyl diphenylamines, phosphate amine salt, autonomous synthetic ester, stearic acid is different pungent Ester is sequentially added in reactor, continuous heating, and temperature is no more than 100 DEG C, and stirs 1 hour；

4) outward appearance of oil product, cooling detection are observed.