CN106635285A

CN106635285A - Cold heading oil composition and application thereof

Info

Publication number: CN106635285A
Application number: CN201610834027.XA
Authority: CN
Inventors: 巩亚; 何晓瑛; 徐魏; 益梅蓉; 周霞
Original assignee: China Petroleum and Chemical Corp
Current assignee: China Petroleum and Chemical Corp
Priority date: 2016-09-20
Filing date: 2016-09-20
Publication date: 2017-05-10
Anticipated expiration: 2036-09-20
Also published as: CN106635285B

Abstract

The invention relates to a cold heading oil composition and an application thereof. The composition mainly solves the problems in the prior art that the extreme pressure anti-wear property and copper corrosion resistance of cold heading oil cannot satisfy usage requirements of partial cold heading equipment for lubrication unified oil supply for cold heading process and equipment, galling is generated on the surface of workpiece, or transmission gear shaft is corroded. The composition comprises the following components in parts by weight: a) 100 parts of mineral base oil; b) 0.1-5.0 parts of an anti-wear reagent at extreme pressure; c) 0.01-0.5 parts of a metal passivator; d) 1.0-15.0 parts of an oiliness agent; e) 0.005-0.5 parts of an anti-foaming agent. The anti-wear reagent at extreme pressure is a mixture of sulfurized olefin and at least one of sulfurized isobutylene, phenyl sulfide, sulfurized fatty acid ester or ammonium thiophsphonate. The metal passivator is selected from at least one of triazole derivatives or thiadiazole derivatives; the oiliness agent is a mixture of sulfurized plant oil and at least one selected from fatty acid ester or high-grade fatty alcohol. The technical scheme can better solve the problem, and is used for partial cold heading equipment for lubrication unified oil supply for cold heading process and equipment.

Description

Cold-heading fluid composition and application thereof

Technical field

The present invention relates to a kind of cold-heading fluid composition and application thereof.

Background technology

Cold heading technique is one of important process process in metal working process, for the fastening automobile produced in enormous quantities Special-shaped automated production on part, motorcycle, bicycle, household electrical appliances is requisite manufacture method.It has formation of contact Stress is high, the features such as require especially high to the extreme pressure property of cold-heading molding oil.Therefore often can be relatively large in cold-heading molding oil product Using active sulfur additives with excellent extreme pressure property etc., but it is simultaneously higher to the corrosivity of brass.

Gear is the significant components in transmission device.Gear oil is to ensure that gear drive operating efficiency and prolongation gear are used The important lubriation material in life-span, primarily serving in gear mechanism prevents tooth surface abrasion, take away friction produce heat and every The absolutely flank of tooth and water, air contact, it is to avoid getting rusty, corrode etc. acts on.With cold-heading molding oil phase ratio, it is to metal (including brass) The protecting box Corrosion Protection of metal requires higher.

During conventional cold-heading, gear box arrangement oil and cold heading technique are usually each independent lube system with oil System, and respectively using industrial gear oil and cold-heading molding oil.But have also part cold-heading equipment in the design process by gear lubrication System and cold-heading molding process oil system are unified, and thereby result in equipment oil and process oil uses same lubricating oil product Use demand.

At present the requirement high to oil product extreme pressure and antiwear behavior in order to meet cold heading technique of conventional cold-heading molding oil, relatively large Active sulfur additives with excellent extreme pressure property etc. are used, in cold heading technique and equipment lubrication the cold-heading equipment of fuel feeding has been unified On using rear appearance or anti-copper corrosion better performances and surface of the work plucking, or workpiece reaches that standard is required and power transmission shaft is rotten Erosion is serious.Therefore, above-mentioned conventional cold-heading oil can not meet the unified oil of using of some processes and equipment lubrication and require.

By domestic and international patent and literature query, a conventional cold-heading oil tech, such as patent CN 104403738A are found It is related to a kind of common conventional cold-heading fluid composition, due to EP agent large usage quantity, is only applicable to common cold headers.

The content of the invention

One of the technical problem to be solved is the extreme pressure and antiwear behavior and anti-copper corrosion of prior art cold-heading oil Performance can not simultaneously meet part cold heading technique and unify the cold-heading equipment use requirement of fuel feeding with equipment lubrication, cause surface of the work Plucking, or the problem of driving cog axle corrosion, there is provided a kind of new cold-heading lubricates dual-purpose cold-heading fluid composition.The present invention to be solved The two of technical problem certainly are to provide a kind of purposes of the cold-heading fluid composition.Said composition has higher extreme pressure anti-wear With excellent anti-copper corrosion performance, it is applicable to part cold heading technique and unifies the special cold headers of fuel feeding with equipment lubrication.

To solve one of above-mentioned technical problem, the technical solution used in the present invention is as follows：A kind of cold-heading fluid composition, with weight Amount number meter includes following component：

A) 100 parts of mineral base oils；

B) 0.1～5.0 part of extreme pressure anti-wear additives；

C) 0.01～0.5 part of metal deactivator；

D) 1.0～15.0 parts of oiliness improvers；

E) 0.005～0.5 anti-foaming agent；

The extreme pressure anti-wear additives be olefine sulfide and, selected from sulfide isobutene, phenyl sulfide, sulfide aliphatic acid ester or sulphur For at least one mixture in the multiple ester amine salt of phosphoric acid；

At least one of the metal deactivator in benzotriazole derivative or thiadiazoles derivative；

The oiliness improver is selected from vulcanized vegetable oil and at least one mixing in fatty acid ester or higher aliphatic Thing.

In above-mentioned technical proposal, it is preferable that in terms of parts by weight, the consumption of extreme pressure anti-wear additives is 0.5～3.0 part, metal The consumption of passivator is 0.02～0.3 part, and the consumption of oiliness improver is 6.0～12.0 parts, and the consumption of anti-foaming agent is 0.01～0.3 Part.

In above-mentioned technical proposal, in extreme-pressure anti-wear agent composition, olefine sulfide vulcanizes with sulfide isobutene, phenyl is selected from At least one weight ratio in the multiple ester amine salt of thing, sulfide aliphatic acid ester or D2EHDTPA is 1: (0.1～1.0)；Preferably 1: (0.1～0.8)；More preferably 1: (0.1～0.6).

In above-mentioned technical proposal, in oiliness agent composition, vulcanized vegetable oil with fatty acid ester or higher aliphatic At least one ratio be 1: (0.1～1.0)；Preferably 1: (0.1～0.8)；More preferably 1: (0.1～0.6).

In above-mentioned technical proposal, the benzotriazole derivative be selected from N, N- dibutyl aminomethylenes-alkyl benzotriazole or At least one in benzotriazole, aldehyde and amine condensation product.

In above-mentioned technical proposal, the thiadiazoles derivative selected from 2,5- dimercapto-1,3,4-thiadiazole derivatives, 2,5- At least one in dimercapto-1,3,4-thiadiazole derivative or the sulphur mixture of di-n-octyl two.

In above-mentioned technical proposal, the anti-foaming agent is selected from alkyl-silicone oil, acrylate and ether copolymer or more mixture In at least one.

In above-mentioned technical proposal, the mineral base oil is selected from solvent refining base oil or is hydrogenated with mineral base oil extremely Few one kind, Viscosity Index is more than 90.

In above-mentioned technical proposal, at least one in antirust agent or antioxidant is also included in the composition；With weight Amount number meter, the consumption of antirust agent is 0.01～1.0 part, and the consumption of antioxidant is 0.05～1.2 part；Wherein, the antirust agent At least one in calcium mahogany sulfonate, dodecenylsuccinic acid or alkenyl succinic acid half ester；The antioxidant is selected from alkyl At least one in diphenylamines, N- PAs or phenolic antioxidant.

The preparation method of cold-heading fluid composition of the present invention is：By the desired amount of metal deactivator, antioxidant, oiliness improver, Antirust agent, detergent-dispersant additive, anti-foaming agent are added in base oil at a temperature of 50～80 DEG C, are stirred 0.5～2 hour so as to all Dissolving；Temperature control is added to extreme pressure anti-wear additives at 45～65 DEG C in said mixture the combination that the present invention is obtained Thing.

To solve the two of above-mentioned technical problem, the technical solution used in the present invention is as follows：Described cold-heading fluid composition is used Unify the lubrication of the special cold headers of fuel feeding in cold heading technique and equipment lubrication.The component of wherein described cold-heading fluid composition, weight Amount number and preferred scope with it is identical in the technical scheme that solution one of technical problem is taken.

The present invention is evaluated using following various test methods to the performance of the cold-heading fluid composition, wherein there is profit Lubrication prescription bearing capacity determination method (four ball method) _ resultant wear index ZMZ (GB/T3142), load carrying capacity of lubricant determination method (four Ball) (maximum nonseizure load P_B) (GB/T3142), load carrying capacity of lubricant determination method (four ball method) (sintering load P_D)(GB/ T3142), the measure rotary bomb oxidation test (SH/T1093) of lubricating oil oxidation stability, lubrication oil antiwear damages performance measurement method (four balls Machine method) (SH/T0189), inhibiting mineral oil rust prevention test method (GB/T11143 or ASTM D665) in the presence of water, oil Product copper strip test method (GB/T5906 or ASTM D130).

Present invention employs carries out appropriately combined and screening to extreme pressure anti-wear additives, oiliness improver and metal deactivator.The pole Pressure antiwear additive is olefine sulfide and is selected from the multiple ester amine salt of sulfide isobutene, phenyl sulfide, sulfide aliphatic acid ester or D2EHDTPA At least one of mixture.At least one of the oiliness improver in vulcanized vegetable oil with fatty acid ester, higher aliphatic Mixture.At least one of the metal deactivator in benzotriazole derivative or thiadiazoles derivative.Take full advantage of The synergy of each component so that composition can have excellent extreme pressure anti-wear (to adopt load carrying capacity of lubricant determination method (four ball method) (resultant wear index ZMZ) test is not less than 631N, (maximum using load carrying capacity of lubricant determination method (four ball method) Without seizing load P_B) test maximum nonseizure load be not less than 1000N, using load carrying capacity of lubricant determination method (four ball method) (sintering load P_D) (GB/T3142) test sintering load be not less than 6080N, using lubrication oil antiwear damage performance measurement method (SH/T0189) wear scar diameter for determining is not more than 0.35mm), excellent corrosion resistance (copper corrosion) (adopts oil product copper The result of piece etching test (GB/T5906 or ASTM D130) test is not more than 1)；Meanwhile, composition also has excellent resisting Oxidation, rustless property, achieve preferable technique effect.

Below by embodiment, the invention will be further elaborated.

Specific embodiment

【Embodiment 1～6】

According to the parts by weight in table 1, weigh respectively the desired amount of metal deactivator, antioxidant, oiliness improver, antirust agent, Detergent-dispersant additive and anti-foaming agent are added into base oil (68 viscosity grade), at 70 DEG C heating stirring to substantially uniformity, then Reduce temperature and add extreme pressure anti-wear additives at 60 DEG C, stir to substantially uniformity and obtain the dual-purpose cold-heading oil combination of the cold-heading lubrication Thing.The species and consumption of each component, is specifically shown in Table 1 in composition.

Wherein Rc2540 is olefine sulfide；T321 is sulfide isobutene；T307 is the multiple ester amine salt of D2EHDTPA；T404 is sulphur Change cottonseed oil；T501 is BHT；Irganox L135 are mixed type shielding point；Irganox L57 are alkane Base diphenylamines；T552 is benzotriazole, aldehyde and amine condensation product；T561 is 2,5- dimercapto-1,3,4-thiadiazole derivatives； T747A is alkenyl succinic acid half ester；T922 is siliceous and non-silicon anti-foaming agent compound.

【Embodiment 7】

It is right【Embodiment 1～6】In composition extreme pressure and antiwear behavior (resultant wear index, maximum meet, burn without seizing Knot load, wear scar diameter), corrosion resistance (copper corrosion), oxidation stability (rotary oxygen bomb value), rust-preventing characteristic (liquid phase corrosion B Method) to be tested, result of the test is shown in Table 2.

Extreme pressure anti-wear is one of most important performance of cold-heading oil.It is right【Embodiment 1～6】In each composition carried out synthesis Abrasion index, it is maximum without it is seizing meet, the index such as sintering load, wear scar diameter is tested.Resultant wear index, maximum nothing It is seizing meet, sintering load, wear scar diameter it is equivalent bigger, illustrate that the oily extreme pressure and antiwear behavior of cold-heading is better；And wear scar diameter is then The extreme pressure and antiwear behavior of less explanation oil product is better.【Embodiment 1～6】In each composition extreme pressure and antiwear behavior in resultant wear Index is all higher than 631N, and sintering load is not less than 6080N, wear scar diameter no more than 0.35mm, and【Embodiment 4～6】In The maximum nonseizure load value of each composition is not less than 1100N, illustrates that each composition can be while meet the spy of cold heading technique It is different to require.Comparatively, each composition resultant wear index (ZMZ) quality is followed successively by：【Embodiment 6】＞【Embodiment 5】＞【It is real Apply example 4】＞【Embodiment 3】=【Embodiment 2】＞【Embodiment 1】；Each composition maximum nonseizure load quality is followed successively by：【It is real Apply example 6】＞【Embodiment 5】＞【Embodiment 4】＞【Embodiment 3】＞【Embodiment 2】=【Embodiment 1】；Each composition sintering is negative Lotus quality is followed successively by：【Embodiment 6】＞【Embodiment 5】=【Embodiment 4】＞【Embodiment 3】=【Embodiment 2】=【Embodiment 1】；Each composition wear scar diameter quality is followed successively by：【Embodiment 5】＞【Embodiment 6】＞【Embodiment 4】＞【Embodiment 3】＞【It is real Apply example 2】＞【Embodiment 1】.Therefore, summary evaluates 4 index situations of gear oil extreme pressure abrasion resistance, each composition Extreme pressure property quality is followed successively by：【Embodiment 6】＞【Embodiment 5】＞【Embodiment 4】＞【Embodiment 3】＞【Embodiment 2】＞【It is real Apply example 1】.

The anti-copper corrosion of oil product can be tested using corrosion resistance (copper corrosion) test method(s).It is general next Say, the copper corrosion rank of oil product is less, illustrate that its anti-copper corrosion is better.It is right【Embodiment 1～6】The anti-corruption of each composition The test data of corrosion (copper corrosion) is shown in Table 2.Each composition is can be seen that from the copper corrosion experimental data of table 2 to pass equipment The copper part of dynamic tooth axle does not have corrosivity, can meet the particular/special requirement of cold-heading equipment gear lubrication.

Additionally, right【Embodiment 3～6】In each composition carried out non-oxidizability and rust-preventing characteristic test, as a result show each group Non-oxidizability, the rustless property of compound can meet the particular/special requirement of cold-heading lubrication.

【Comparative example 1～4】

According in table 1【Comparative example 1～4】Parts by weight, the desired amount of metal deactivator, antioxidant, oil are weighed respectively Property agent, antirust agent, detergent-dispersant additive and anti-foaming agent are added into base oil (68 viscosity grade), and heating stirring is to complete at 70 DEG C It is complete uniform, then reduce temperature and add extreme pressure anti-wear additives at 60 DEG C, stir to substantially uniformity and obtain【Comparative example 1～4】It is described Cold-heading fluid composition.【Comparative example 1～4】The species and consumption of each component, is specifically shown in Table 1 in composition.

【Comparative example 5】

It is right【Comparative example 1～4】In composition extreme pressure and antiwear behavior it is (resultant wear index (ZMZ), maximum without seizing negative Lotus, sintering load, wear scar diameter and corrosion resistance (copper corrosion)) to be tested, result of the test is shown in Table 2.

With【Embodiment 1～6】Compare,【Comparative example 1～4】The maximum nonseizure load of each composition is respectively less than 1000N, mill Spot diameter is all higher than 0.35mm, it is impossible to meet cold heading technique particular/special requirement；Corrosion resistance (copper corrosion) experiment of each composition It is all higher than 1 grade, it is impossible to meet the particular/special requirement of cold-heading equipment gear lubrication.

Summary pair【Embodiment 1～6】With【Comparative example 1～4】In each composition extreme pressure anti-wear, corrosion resistance It is (copper corrosion) and right【Embodiment 3～6】Oxidation stability (rotary bomb oxidation test), rust-preventing characteristic (liquid phase corrosion B methods) etc. Test result, illustrates that the present composition has excellent extreme pressure anti-wear (using load carrying capacity of lubricant determination method (four balls Method) not less than 631N, using load carrying capacity of lubricant determination method (four ball method), (maximum is without card for (resultant wear index ZMZ) test Sting load P_B) test maximum nonseizure load be not less than 1000N, using load carrying capacity of lubricant determination method (four ball method) (burn Knot load P_D) (GB/T3142) test sintering load be not less than 6080N, using lubrication oil antiwear damage performance measurement method (SH/ T0189) wear scar diameter for determining is not more than 0.35mm), excellent corrosion resistance (copper corrosion) is (rotten using oil product copper sheet The result of corrosion test method (GB/T5906 or ASTM D130) test is not more than 1)；Meanwhile, combination also has excellent anti-oxidant Property, resistance to rust and corrosion.

Claims

1. a kind of cold-heading fluid composition, comprising following component in terms of parts by weight：

A) 100 parts of mineral base oils；

B) 0.1～5.0 part of extreme pressure anti-wear additives；

C) 0.01～0.5 part of metal deactivator；

D) 1.0～15.0 parts of oiliness improvers；

E) 0.005～0.5 anti-foaming agent；

The extreme pressure anti-wear additives be olefine sulfide and, selected from sulfide isobutene, phenyl sulfide, sulfide aliphatic acid ester or thio phosphorus At least one mixture in the multiple ester amine salt of acid；

The oiliness improver is selected from vulcanized vegetable oil and at least one mixture in fatty acid ester or higher aliphatic.

2. cold-heading fluid composition according to claim 1, it is characterised in that in terms of parts by weight, the consumption of extreme pressure anti-wear additives For 0.5～3.0 part, the consumption of metal deactivator is 0.02～0.3 part, and the consumption of oiliness improver is 6.0～12.0 parts, anti-foaming agent Consumption is 0.01～0.3 part.

3. cold-heading fluid composition according to claim 1, it is characterised in that in extreme-pressure anti-wear agent composition, olefine sulfide with At least one weight ratio in the multiple ester amine salt of sulfide isobutene, phenyl sulfide, sulfide aliphatic acid ester or D2EHDTPA For 1：(0.1～1.0)；

In oiliness agent composition, vulcanized vegetable oil is 1 with least one ratio in fatty acid ester or higher aliphatic： (0.1～1.0).

4. cold-heading fluid composition according to claim 3, it is characterised in that in extreme-pressure anti-wear agent composition, olefine sulfide with At least one weight ratio in the multiple ester amine salt of sulfide isobutene, phenyl sulfide, sulfide aliphatic acid ester or D2EHDTPA For 1：(0.1～0.8)；

In oiliness agent composition, vulcanized vegetable oil is 1 with least one ratio in fatty acid ester or higher aliphatic： (0.1～0.8).

5. cold-heading fluid composition according to claim 4, it is characterised in that in extreme-pressure anti-wear agent composition, olefine sulfide with At least one weight ratio in the multiple ester amine salt of sulfide isobutene, phenyl sulfide, sulfide aliphatic acid ester or D2EHDTPA For 1：(0.1～0.6)；

In oiliness agent composition, vulcanized vegetable oil is 1 with least one ratio in fatty acid ester or higher aliphatic： (0.1～0.6).

6. cold-heading fluid composition according to claim 1, it is characterised in that the benzotriazole derivative is selected from N, the fourths of N- bis- At least one in base aminomethylene-alkyl benzotriazole or benzotriazole, aldehyde and amine condensation product；

The thiadiazoles derivative is selected from 2,5- dimercapto -1,3,4- thiadiazoles derivatives, 2,5- dimercapto -1,3,4- thiadiazoles At least one in derivative or the sulphur mixture of di-n-octyl two.

7. cold-heading fluid composition according to claim 1, it is characterised in that the anti-foaming agent is selected from alkyl-silicone oil, acrylic acid At least one in ester and ether copolymer or more mixture.

8. cold-heading fluid composition according to claim 1, it is characterised in that the mineral base oil is selected from solvent refining base At least one in plinth oil or hydrogenation mineral base oil, Viscosity Index is more than 90.

9. cold-heading fluid composition according to claim 1, it is characterised in that also include selected from antirust agent in the composition Or at least one in antioxidant；In terms of parts by weight, the consumption of antirust agent is 0.01～1.0 part, and the consumption of antioxidant is 0.05～1.2 part；Wherein, the antirust agent is in calcium mahogany sulfonate, dodecenylsuccinic acid or alkenyl succinic acid half ester It is at least one；At least one of the antioxidant in alkylated diphenylamine, N- PAs or phenolic antioxidant.

10. the arbitrary described cold-heading fluid composition of claim 1～9 is used for cold heading technique and unifies the cold-heading of fuel feeding with equipment lubrication The lubrication of machine.