CN1197107A

CN1197107A - Aviation lubricating grease

Info

Publication number: CN1197107A
Application number: CN 97104136
Authority: CN
Inventors: 李茂森; 姜瑞霖; 王红
Original assignee: Sinopec Research Institute of Petroleum Processing; China Petrochemical Corp
Current assignee: Sinopec Research Institute of Petroleum Processing; China Petrochemical Corp
Priority date: 1997-04-24
Filing date: 1997-04-24
Publication date: 1998-10-28
Anticipated expiration: 2017-04-24
Also published as: CN1045470C

Abstract

An aviation grease lubricant contains basic oil (alpha-polyolefin oil), thickening agent (organic bentone), antioxidizing agent (phenyl-beta-naphthalenamine and diisooctyl diphenylamine), anti-rusting agent (benzotriazazole and sodium sebacate), extreme pressure chemical (teflon and melamine cyanoimide), and disperser (acetone or 1,2-propanediol-carbonate, and features better temp. impact performance, compatibility with rubber, outstanding antioxidizing and extreme pressure performance.

Description

A kind of aviation grease

The present invention is a kind of lubricant, a kind of aviation grease of more specifically saying so.

In order to ensure the safe flight of space shuttle, aviation grease not only to have certain high temperature performance, with the compatibility performance of rubber parts, also to possess good antioxygen, extreme pressure property and rust-preventing characteristic.At present, though aviation grease is various in style, can not satisfy above-mentioned requirements fully.Organobentonite lubricating grease is a kind of high temperature grease, and has certain extreme pressure property, be usually used in preparing open-type gear grease, as GB 2,043,684 lubricating grease of introducing is Dormant oils, bentonite lubricating grease, and is added with zinc oxide, metal boride as extreme pressure agent, but the Dormant oils low-temperature performance is relatively poor, can not satisfy the low-temperature lubrication requirement of aircraft when high-altitude flight.DD2 for another example, 03586 lubricating grease of introducing, viscosifying agent is a wilkinite, and base oil is an ester class oil, and this ester use temperature is wide, of many uses, but ester class oil is bad with the consistency of rubber parts, is not suitable for and the contacted position of rubber parts.Mobil grease28 and Aereshell grease22 trade mark lubricating grease for another example consist of the poly-α hydrocarbon ils of organobentonite and ethylene oligomerization.This lubricating grease have good high and low temperature and with the consistency of rubber parts, but extreme pressure property and antioxygen are not ideal enough.

The purpose of this invention is to provide a kind of aviation grease, not only have good high and low temperature, with the consistency of rubber parts, also have outstanding oxidation stability, extreme pressure property and non-corrosibility.

Lubricating grease provided by the invention (is benchmark with lubricating grease weight) is: base oil 60～88%; Viscosifying agent 5～20%; Oxidation inhibitor 0.5～3%; Rust-preventive agent 0.5～2.5%; Extreme pressure agent 5～10%; Dispersion agent 0.5～5%.

Described base oil is a poly-a-olefin oil, and it is by C ₁₀Alpha-olefin polymerization forms (polyalphaolefin lubricating grease preparation technology sees Hou Xianglin chief editor's " Chinese oil Refining Technologies ", and Sinopec press published P460～465 in 1991), and 100 ℃ of viscosity of base oil are 3～14mm ²/ s, preferably 5～7mm ²/ s, viscosity index is greater than 120.

Described viscosifying agent is an organobentonite, quaternary ammonium salt activatory wilkinite preferably, the Bentone34 organobentonite of producing as the U.S. plumbous industry company (NL chemicals/NL Industries Inc.).

Described oxidation inhibitor is the combination of Phenyl beta naphthylamine and di-iso-octyldiphenylamine, and weight ratio is 1: 4～6.

Described rust-preventive agent is the combination of benzotriazole and sebacic acid sodium, and weight ratio is 1: 3～5.

Described extreme pressure agent is the combination of tetrafluoroethylene and cyanogen urea acid melamine salt, and weight ratio is 1: 0.5～1.5.

Described dispersion agent is acetone or 1,2 propylene glycol carbonic ether, preferably 1,2 propylene glycol carbon alcohol ester.

Lubricating grease of the present invention is to adopt the preparation of conventional heating method of enrichment, concrete grammar is as follows: about 1/3rd poly-a-olefin oils and oxidation inhibitor are mixed and stir, be warming up to 90～110 ℃ (if dispersion agent is an acetone then to be warming up to～70 ℃) and add about 1/3rd poly-a-olefin oils, organobentonite and dispersion agent (if acetone again, need be cooled to earlier～50 ℃), add remaining base oil and rust-preventive agent, extreme pressure agent after stirring again, mix the back grinding and can obtain grease product three times.

(referring to " LUBRICATING GREASES ", hydrocarbon processing press publishes, and 1987, P243～248).

The raw material of above-mentioned preparation lubricating grease is the commercial goods.

Lubricating grease of the present invention is owing to adopted suitable prescription, overcome the deficiency that existing aviation grease exists, major advantage shows: because to select poly-a-olefin oil for use is that base oil, organobentonite are viscosifying agent, make lubricating grease have good high and low temperature, with the consistency of rubber parts; Owing to adopted composite antioxidant, extreme pressure agent and rust-preventive agent, made lubricating grease possess outstanding oxidation stability, extreme pressure property, non-corrosibility and longevity.Lubricating grease use temperature a wider range of the present invention can use down at-54～177 ℃, is applicable to wheel bearing, alkaline-friction bearing, wheel casing and the plane bearing etc. of brake wheel subassembly in vertiplane tail transmission shaft bearing, the aircraft.

Further specify characteristics of the present invention below by example.

Example 1

30g poly-a-olefin oil and 0.4g di-iso-octyldiphenylamine and 0.1g Phenyl beta naphthylamine are mixed and stir, be warming up to 100 ℃, add 30g poly-a-olefin oil, 6g organobentonite and 0.5g 1,2 propylene glycol carbonic ethers, add remaining 26.4g base oil and 0.1g benzotriazole, 0.5g sebacic acid sodium, 4g tetrafluoroethylene, 2g cyanogen urea acid melamine salt after stirring again, mix the back grinding and promptly get grease product three times.The product dropping point is greater than 280 ℃, and 1/4 cone penetration is 76.

Example 2

Be warming up to 70 ℃ after 20g poly-a-olefin oil and 0.5g Phenyl beta naphthylamine and 2.5g di-iso-octyldiphenylamine mixed, add the 20g poly-a-olefin oil and be cooled to 50 ℃, add the 15g organobentonite again, 5g acetone, stir, add remaining 25.5g base oil and 0.3g benzotriazole, 1.2g sebacic acid sodium, 4g tetrafluoroethylene, 6g cyanogen urea acid melamine salt at last, mix the back grinding and promptly get grease product three times.The product dropping point is greater than 280 ℃, and 1/4 cone penetration is 57.

Example 3

The preparation method of this example is with example 1, and raw materials used composition sees Table 1.

Table 1

Raw material weight, g	Raw material weight, g
Raw material weight, g	Raw material weight, g	Poly-a-olefin oil 77.2 organobentonites 9.0 Phenyl beta naphthylamine 0.4 di-iso-octyldiphenylamine 2.0 1,2 propylene glycol carbonic ethers 1.0	Benzotriazole 0.4 sebacic acid sodium 2.0 tetrafluoroethylene 4.0 cyanogen ureas acid melamine salt 4.0

The physicochemical property of the lubricating grease that makes as stated above sees Table 2.In order to contrast, list file names with the physicochemical property of Mobil grease28 and Aere shell grease22 in the table 2.

As can be seen from Table 2, lubricating grease of the present invention is except having the high and low temperature suitable with shell22 with Mobil28, outside colloid stability and the mechanical stability, also have more superior oxidation stability, extreme pressure property and non-corrosibility, satisfied the multiple performance requriements of aircraft aviation grease.

Table 2 physical and chemical performance analysis table ^*

Test subject	Example 3	??Mobil28	??shell22	Test method
Test subject	Example 3	??Mobil28	??shell22	Test method	Dropping point, ℃	????260 ⁺	????260 ⁺	????260 ⁺	?GB/T3498
Cone penetration (60 times), 0.1mm	????270	????285	????277	?GB/T269	Dropping point, ℃	????260 ⁺	????260 ⁺	????260 ⁺	?GB/T3498
Cone penetration (60 times), 0.1mm	????270	????285	????277	?GB/T269	Prolong Drawing cone in-degree (100,000 times 270 holes), 0.1mm	????308	????310	?????-	?GB/T269
Corrosion (T ₂Copper sheet, 100 ℃, 24h), %	????1b	?????-	By	?GB/T7326		????308	????310	?????-	?GB/T269
Corrosion (T ₂Copper sheet, 100 ℃, 24h), %	????1b	?????-	By	?GB/T7326	Water pouring number of dropouts (41 ℃, 1h), %	????1.54	????1.0	????1.2	?SH/T0109
Steam output (177 ℃, 22h), %	????4.70	????10	????4.2	?GB/T7325	Water pouring number of dropouts (41 ℃, 1h), %	????1.54	????1.0	????1.2	?SH/T0109
Steam output (177 ℃, 22h), %	????4.70	????10	????4.2	?GB/T7325	The Stencil oil-dividing amount (177 ℃, 30h), %	????6.07	????5.0	????5.9	?SH/T0324
Non-corrosibility (52 ℃, 48h), level	????1	By	By	?GB/T5018	The Stencil oil-dividing amount (177 ℃, 30h), %	????6.07	????5.0	????5.9	?SH/T0324
Non-corrosibility (52 ℃, 48h), level	????1	By	By	?GB/T5018	Rubber swelling (70 ℃, 168h, NBR-L type film), %	????5.25	?????-	?????-	?SH/T0429
Bearing life (177 ℃, 10,000 rev/mins), h	????831	?????-	????800 ⁺	?SH/T0428	Rubber swelling (70 ℃, 168h, NBR-L type film), %	????5.25	?????-	?????-	?SH/T0429
Bearing life (177 ℃, 10,000 rev/mins), h	????831	?????-	????800 ⁺	?SH/T0428	Extreme pressure property (four ball methods, 1800 rev/mins of normal temperature) ZMZ, N	????623	????392	????382	?SH/T0202
Oxidation stability 100h (99 ℃ of pressure fall), Mpa 500h	????0 ????0.010	?????- ?????-	????0.049 ????0.078	?SH/T0335		????623	????392	????382	?SH/T0202
Oxidation stability 100h (99 ℃ of pressure fall), Mpa 500h	????0 ????0.010	?????- ?????-	????0.049 ????0.078	?SH/T0335	Low temperature torque staring torque (54 ℃), the Nm moment that turns round	????0.24 ????0.041	????0.64 ????0.075	?????- ?????-	?SH/T0338

^*Institute's column data is measured data in the table.

Claims

1. an aviation grease is characterized in that its component and content (is benchmark with lubricating grease weight) are: (1) base oil 60～88%; (2) viscosifying agent 5～20%; (3) oxidation inhibitor 0.5～3%; (4) rust-preventive agent 0.5～2.5%; (5) extreme pressure agent 5～10%; (6) dispersion agent 0.5～5%, and described base oil is a poly-a-olefin oil, and 100 ℃ of viscosity are 3～14mm ²/ s, described viscosifying agent is an organobentonite, described oxidation inhibitor is the combination of Phenyl beta naphthylamine and di-iso-octyldiphenylamine, weight ratio is 1: 4～6, and described rust-preventive agent is the combination of benzotriazole and sebacic acid sodium, and weight ratio is 1: 3～5, described extreme pressure agent is the combination of tetrafluoroethylene and cyanogen urea acid melamine salt, weight ratio is 1: 0.5～1.5, and described dispersion agent is acetone or 1,2 propylene glycol carbonic ether.

2. according to the described lubricating grease of claim 1, it is characterized in that base oil is that viscosity index is 5～7mm greater than 120,100 ℃ of viscosity ²The poly-a-olefin oil of/S.

3. according to the described lubricating grease of claim 1, it is characterized in that viscosifying agent is a quaternary ammonium salt activatory organobentonite.

4. according to the described lubricating grease of claim 1, it is characterized in that dispersion agent is 1,2 propylene glycol carbonic ether.