CN102417853B - Calcium sulfonate octaurea lubricating grease and preparation method thereof - Google Patents

Calcium sulfonate octaurea lubricating grease and preparation method thereof Download PDF

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CN102417853B
CN102417853B CN 201010292876 CN201010292876A CN102417853B CN 102417853 B CN102417853 B CN 102417853B CN 201010292876 CN201010292876 CN 201010292876 CN 201010292876 A CN201010292876 A CN 201010292876A CN 102417853 B CN102417853 B CN 102417853B
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lubricating grease
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calcium sulphonate
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CN102417853A (en
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孙洪伟
刘磊
何懿峰
段庆华
刘中其
姜靓
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Sinopec Research Institute of Petroleum Processing
China Petroleum and Chemical Corp
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China Petroleum and Chemical Corp
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Abstract

The invention provides calcium sulfonate octaurea lubricating grease and a preparation method thereof. The lubricating grease comprises the following components by weight percent: 10-70% of non-Newtonian calcium sulfonate, 0.5-30% of octaurea and 10-80% of lube base oil. The preparation method comprises the following steps of: converting Newtonian calcium sulfonate and reacting with diisocyanate, diamine and monoamine. The lubricating grease has excellent extreme pressure anti-wear property, ultra-long lubricating life, good adhesivity, water resistance, colloid stability, high dropping point, heat stability, corrosion resistance, salt fog resistance and other performances.

Description

A kind of calcium sulphonate base eight polyurea greases and preparation method thereof
Technical field
The present invention relates to lubricant, definite a kind of calcium sulphonate base eight polyurea greases and preparation method thereof that say.
Background technology
Calcium sulphonate is used as the purification agent of lubricating oil and the history that rust-preventive agent has decades, be widely used in the additive of internal combustion (IC) engine lubricating oil, its technical development is mainly to make its high alkalization, exactly calcium carbonate is distributed to and becomes a kind of colloidal dispersion system in thinning oil with having surface-active alkyl benzene calcium sulfonate or alkyl carboxylic acid calcium.Calcium sulfonate with high base number can be divided into calcium mahogany sulfonate and calcium alkylbenzenesulfonate according to mode of production difference.Calcium mahogany sulfonate is with oleum or SO 3By product oil sulfonic acid when the sulfonation mineral lubricating oils is produced white oil, warp and Ca (OH) 2Reaction, the contour alkalization technology of carbonating and getting; Calcium alkylbenzenesulfonate is with oleum or SO 3The alkylbenzene that sulfonation is synthetic, alkyl benzene sulphonate (ABS) warp and Ca (OH) of generation 2Reaction, the contour alkalization technology of carbonating and getting.
As far back as the 1950's, Sproule etc. are at patent US 2,535, ethylsulfonic acid calcium with calcium mahogany sulfonate and lower molecular weight in 101 makes calcium sulfonate grease as viscosifying agent multiviscosisty mineral oil by a certain percentage jointly, dropping point can reach 205 ℃ of left and right, high more than general quicklime grease, but thickening ability is less.Six the seventies, patent such as US 3,242,079, US 3 are arranged in succession, 376,222, US 3,816, and 310, US 4,261,840 grades have reported and have made newton's body calcium sulphonate be transformed into the method for the non-newtonian fluid with thixotropic property, and have introduced the height alkalization technology of calcium sulphonate, have made the high alkaline calcium sulfonate base grease.But these early stage calcium sulfonate greases are than thickness, and temperature pumping is poor has hindered its application.The eighties mid-term, Muir etc. are at patent US 4,560, reported in 489 with the improved overbased Calcium Sulfonate Complex Grease of boric acid, its composition and performance and former complex calcium sulfonate are very different, not only overcome the shortcoming of the poor and aging sclerosis of temperature pumping, and had excellent high temperature performance, mechanical stability, colloid stability, oxidation stability, water resisting property, non-corrosibility and antirust resistance to abrasion.Since putting goods on the market, cause the extensive concern of domestic and international lubricating grease industry, there is successively the patented technology of high base number composite calcium sulfonate base grease to deliver, as US 5,126,062, US 4,597,880, US 5,308,514, US 5,338,467 etc.
The industrial application of complex calcium sulfonate grease still is in the starting stage at home, domestic also have technical literature to describe this class preparation of greases method, wherein CN 1152949 provides a kind of synthetic method that contains the high base number composite calcium sulfonate base grease of organic carbamide compound, organic urea used is two polyureas, although the performances such as its lubricating life increase than prior art, but the character such as extreme pressure anti-wear and prior art difference are little, all are still waiting further raising.
Summary of the invention
The invention provides a kind of calcium sulphonate base eight polyurea greases, it is raw material that this lubricating grease has adopted calcium mahogany sulfonate or calcium alkylbenzenesulfonate, contains simultaneously eight polyurea compounds that the reaction of isocyanic ester and amine produces.
The present invention also provides above-mentioned preparation of greases method.
Overbased calcium sulphonate base eight polyurea greases provided by the invention take lubricating grease weight as benchmark, comprise following component:
1) non-newtonian fluid calcium sulphonate 10-70%, preferred 20-60%, most preferably 30-50%;
2) eight polyureas 0.5-30%, preferred 1-20%, most preferably 2-10%;
3) lubricating base oil, 10-80%, preferred 20-70%, most preferably 30-60%.
Described non-newtonian fluid calcium sulphonate is at infrared spectrum 881-886cm -1The charateristic avsorption band of calcite type calcium carbonate appears in the place, and newton's body calcium sulphonate 862-863cm in infrared spectrum -1There is the charateristic avsorption band of unformed calcium carbonate at the place.The non-newtonian fluid calcium sulphonate is transformed by transforming agent by newton's body calcium sulphonate and obtains, and described newton's body calcium sulphonate is calcium mahogany sulfonate or calcium alkylbenzenesulfonate, and its total basicnumber is 250-450mgKOH/g, preferred 300-400mgKOH/g.
Said eight polyureas have following structure:
Figure BSA00000284793400021
R wherein 1Can be alkyl, cycloalkyl or aryl, the carbon number of alkyl or cycloalkyl can be 8~24, and is preferred 10~18, and aryl can be the phenyl of phenyl or replacement, the phenyl that preferred phenyl or C1~C3 alkyl or halogen replace.
R wherein 2Can be alkylidene group or arylidene, the carbon number of alkylidene group can be 2~12, and is preferred 2~8, and arylidene can be phenylene or biphenylene.
R wherein 3Can be that carbon number is 6~30, preferred 6~20 arylidene, alkylidene group or cycloalkylidene, at least a in preferred tolyl, methyldiphenyl base, dicyclohexyl methyl, an xylylene and hexylidene.
Described lubricant base can be mineral oil, synthetic oil, vegetables oil or their mixture, and 100 ℃ of kinematic viscosities are 4-60mm 2/ s, preferred 10-30mm 2/ s.Synthetic oil can be poly-a-olefin oil (PAO), ester class oil, alkyl-silicone oil, Fischer-Tropsch synthesis oil etc.
Can also contain various additives in lubricating grease of the present invention, as oxidation inhibitor, anti-wear agent rust-preventive agent etc.The preferred arylamine kind antioxidant of oxidation inhibitor wherein accounts for the 0.1-5% of lubricating grease gross weight, and preferred 0.2-1% can be pentanoic, phenyl-a-naphthylamine, di-iso-octyldiphenylamine or their mixture, preferred di-iso-octyldiphenylamine.
The preparation method of described calcium sulphonate base eight polyurea greases comprises:
(1) newton's body calcium sulphonate, part base oil and transforming agent are mixed, heat, treat that the material retrogradation becomes smectic, the dehydration that heats up, cooling;
(2) add the vulcabond that is dissolved in the part base oil, first add diamines to react, again add diamines to react, add at last monoamine to react again, the mol ratio of the added vulcabond of each time, diamines, diamines and monoamine is 4: 2: 1: 2;
(3) be warmed up to 200-220 ℃ of constant temperature refining, cooling, add the surplus base oil, add necessary additive, obtain finished product.
Specifically, in step (1), to 50-80 ℃, add successively required transforming agent to react newton's body calcium sulphonate, part base oil Hybrid Heating, preferably add rear stirring about 10 minutes at every turn, react fully, all transforming agents add rear intensification, preferably at 80-90 ℃ of constant temperature 60-90 minute, when reaction system is smectic by the oily retrogradation, be warming up to 100-120 ℃, preferred 105-110 ℃ of dehydration is cooled to after water has taken off below 105 ℃.
Described newton's body calcium sulphonate is calcium mahogany sulfonate or calcium alkylbenzenesulfonate, and its total basicnumber is 250-450mgKOH/g, preferred 300-400mgKOH/g.
Described transforming agent is selected from Fatty Alcohol(C12-C14 and C12-C18), lipid acid, aliphatic ketone, alkanoic, aliphatic amide, cycloalkanes amine, cycloalkanol, the ether of C1-C5, and boric acid, phosphonic acids, carbonic acid gas, phenol, aromatic alcohol, aromatic amine, the C8-C20 alkyl benzene sulphonate (ABS), one or more in water etc., preferred Witco 1298 Soft Acid, acetic acid and water.The add-on of transforming agent is the 2-30% of newton's body calcium sulphonate weight, preferred 6-22%.
In step (2), add the vulcabond that is dissolved in the part base oil in the product of step (1), stir, add diamines, reacted 2-8 minute, again added diamine reactant 2-8 minute, and added monoamine reaction 2-8 minute, the mol ratio of the added vulcabond of each time, diamines, diamines and monoamine is 4: 2: 1: 2.
Said vulcabond structure is OCN-R 3-NCO, R 3Can be that carbon number is 6~30, preferred 6~20 arylidene, alkylidene group or cycloalkylidene, preferred tolyl, methyldiphenyl base, dicyclohexyl methyl, an xylylene, hexylidene etc.For example described vulcabond can be tolylene diisocyanate (TDI), methyldiphenyl group diisocyanate (MDI), 1,6-hexylidene diisocyanate (HDI), dicyclohexyl methyl vulcabond (HMDI), or at least a in an xylylene vulcabond (XDI) etc.
Said monoamine can be aliphatic amide, aliphatic cyclic amine or arylamine, and structural formula is R 1-NH 2, R wherein 1Can be alkyl, cycloalkyl or aryl, the carbon number of alkyl or cycloalkyl can be 8~24, and is preferred 10~18, and aryl can be the phenyl of phenyl or replacement, the phenyl that preferred phenyl or C1~C3 alkyl or halogen replace.Preferred monoamine can be the arylamine that is selected from aniline, m-chloro aniline, p-Chlorobenzoic acid amide, para-totuidine, and/or is selected from the aliphatic amide of amino dodecane, tetradecy lamine, cetylamine, stearylamine.
Said diamines can be aliphatic amide or arylamine, and structural formula is NH 2-R 2-NH 2, R wherein 2Can be alkylidene group or arylidene, the carbon number of alkylidene group can be 2~12, and is preferred 2~8, and arylidene can be phenylene or biphenylene.Preferred diamines can be to be selected from Ursol D, O-Phenylene Diamine, 4,4, the aromatic amine of-benzidine and/or be selected from quadrol, propylene diamine, 1, the straight-chain fatty amine of 6-hexanediamine.
In step (3), the product of step 2 is heated up, preferred 100-120 ℃ constant temperature 10-20 minute, be warmed up at last 200-220 ℃ of constant temperature 5-10 minute; Be cooled to 150-160 ℃, add the surplus lubricating base oil, treat that temperature is cooled to 100-120 ℃, add necessary additive, stir circulating filtration, homogenizing, the degassed finished product that obtains.
The present invention compared with prior art has fabulous extreme pressure anti-wear and overlength lubricating life, simultaneously, also has the performances such as good adhesivity, water resisting property, colloid stability, high dropping point, heat-resistant quality, non-corrosibility, resistance to salt(spray)fog.This product preparation process is simple, constant product quality.
Description of drawings
Fig. 1 is the infrared analysis spectrogram of eight polyureas in the lubricating grease of embodiment 1 preparation.As can be seen from the figure, 3310~3323cm -1The peak at place is in eight polyureas molecules-the stretching vibration absorption peak of NH-, and 1630cm -1The peak at place is in eight polyureas molecules-vibration absorption peak of CO-.
Fig. 2 is the nuclear magnetic resonance spectroscopy spectrogram of eight polyureas in the lubricating grease of embodiment 1 preparation.As can be seen from the figure, the peak of δ=155HZ left and right is in eight polyureas molecules-chemical shift of CO-.
Fig. 3 is the Electrospray Ionization Mass Spectrometry spectrogram of eight polyureas in the lubricating grease of embodiment 1 preparation.As can be seen from the figure, the mass-to-charge ratio of sample is 1721.4m/z, and the relative molecular mass of this and eight polyurea compounds matches.
The separation method of eight polyureas: first lubricating grease is washed with sherwood oil (60~90 ℃ of boiling points), filtration is precipitated, and the dilute acetic acid solution immersion that precipitates with 5% is not stopped to stir in 5~10 minutes, to no longer producing CO 2Bubble filters, and filter residue cleans with large water gaging, no longer produces foam to filtrate, then uses rare NaHCO of 1% 3Solution soaking gained precipitation is filtered, and filter residue cleans with large water gaging, to filtrate pH value be 7 o'clock, gained precipitates and namely gets after drying eight polyureas.
Embodiment
Embodiment 1
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.69kg); Quadrol (0.23kg); MDI (1.28kg); 500SN (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
A volume be 110L and with heating, stirring, circulation, cooling normal-pressure reaction kettle in to add the 30kg total basicnumber be that overbased calcium sulphonate and 100 ℃ of kinematic viscosity of 15kg of 400mgKOH/g are 31mm 2The HVI150BS lubricating base oil of/s stirs, and heats to 60 ℃, constant temperature 10 minutes; Add the 2.8kg Witco 1298 Soft Acid, temperature is controlled at 65 ℃ of left and right, stirs 10 minutes; Add the aqueous solution of 4 times of the acetic acid of 0.56kg and acetic acid weight, stirred 10 minutes; Add 2.32kg boric acid and with 6 times of consoluet boric acid solution of hot water, stir, 80 ℃ of constant temperature 90 minutes, the material retrogradation became smectic; Be warmed up to 110 ℃ under stirring, kept 60 minutes, dehydration; Cooling to 90 ℃, to add with 5kg100 ℃ of kinematic viscosity be 11mm 2The 1.28kg MDI rapid stirring of the HVI500SN lubricating base oil dissolving of/s 4 minutes, add the 0.15kg quadrol under rapid stirring, stirred 4 minutes, again add the 0.08kg quadrol under rapid stirring, stirred 4 minutes, and added the 0.69kg stearylamine to stir 4 minutes, the mol ratio of added MDI, quadrol, quadrol and stearylamine is 4: 2: 1 successively: 2,120 ℃ of constant temperature 20 minutes is warmed up to 200 ℃ of constant temperature 5 minutes at last.Then, be cooled to 160 ℃, add 28kg lubricating base oil 500SN; Treat that temperature is cooled to 110 ℃, after adding 0.2kg to stir 10 minutes to p-di-iso-octyldiphenylamine, circulating filtration, homogenizing, the degassed finished product that obtains.Assay sees Table 1.
In the lubricating grease that the present embodiment obtains, take lubricating grease weight as benchmark, consist of: non-newtonian fluid calcium sulphonate 41.3%; Eight polyureas 2.6%; Lubricating base oil 55.9%; To p-di-iso-octyldiphenylamine 0.2%.
The eight polyureas molecular structural formulas that contain in component are:
Figure BSA00000284793400051
Embodiment 2
Feed composition: overbased calcium sulphonate (total basicnumber is 420mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.69kg); Quadrol (0.23kg); MDI (1.28kg); 500SN (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, and the total basicnumber of the overbased calcium sulphonate that different is uses is 420mgKOH/g, and each performance data of lubricating grease finished product that obtains sees Table 1.
Embodiment 3
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Lauryl amine (0.52kg) 0.6%; Quadrol (0.26kg); MDI (1.42kg); 500SN (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, and different is that the aliphatic amide that uses is lauryl amine, and each performance data of lubricating grease finished product that obtains sees Table 1.
Embodiment 4
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.84kg; Quadrol (0.28kg); TDI (1.08kg); 500SN (33kg); Phenyl-a-naphthylamine (0.2kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, and different is that the vulcabond that uses is tolylene diisocyanate (TDI), and oxidation inhibitor is phenyl-a-naphthylamine, and each performance data of lubricating grease finished product that obtains sees Table 1.
Embodiment 5
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); 150BS (15kg; Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.69kg); Quadrol (0.23kg); MDI (1.28kg); 500SN (7kg); To p-di-iso-octyldiphenylamine (0.4kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, the amount of different is 500SN is 7kg, thereby make each material rate that larger change occur, use is 0.4kg to p-di-iso-octyldiphenylamine in addition, and each performance data of lubricating grease finished product that obtains sees Table 1.
In the lubricating grease that the present embodiment obtains, take lubricating grease weight as benchmark, consist of: non-newtonian fluid calcium sulphonate 59.0%; Eight polyureas 3.7%; Lubricating base oil 36.6%; To p-di-iso-octyldiphenylamine 0.7%.
Embodiment 6
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (2.07kg); Quadrol (0.69kg; MDI (3.84kg); 500SN (28.6kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, the consumption of different is stearylamine, quadrol, MDI and 500SN changes to some extent, the weight fraction of eight polyureas that reaction generates is 7.6%, and each performance data of lubricating grease finished product that obtains sees Table 1.
In the lubricating grease that the present embodiment obtains, take lubricating grease weight as benchmark, consist of: non-newtonian fluid calcium sulphonate 41.5%; Eight polyureas 7.6%; Lubricating base oil 50.7%; To p-di-iso-octyldiphenylamine 0.2%.
Embodiment 7
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); PAO 40 (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.69kg; Quadrol (0.23kg); MDI (1.28kg); PAO 10 (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, and different is uses full synthetic oil poly ﹠ Alpha ,-olefin oil PAO 10 (100 ℃ of kinematic viscosity are 11mm 2/ s) (100 ℃ of kinematic viscosity are 41mm with PAO 40 2/ s) replacing respectively 500SN and 150BS, each performance data of lubricating grease finished product that obtains sees Table 1.
Embodiment 8
Feed composition: calcium sulfonate with high base number (total basicnumber is 320mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.69kg); Quadrol (0.23kg); MDI (1.28kg); 500SN (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares calcium sulfonate with high base number base eight polyurea greases, and the total basicnumber of the calcium sulfonate with high base number that different is uses is 320mgKOH/g, and each performance data of lubricating grease finished product that obtains sees Table 1.
Embodiment 9
Feed composition: calcium sulfonate with high base number (total basicnumber is 360mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.69kg); Quadrol (0.23kg); MDI (1.28kg); 500SN (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares calcium sulfonate with high base number base eight polyurea greases, and the total basicnumber of the calcium sulfonate with high base number that different is uses is 360mgKOH/g, and each performance data of lubricating grease finished product that obtains sees Table 1.
Embodiment 10
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.78kg); 1,6-hexanediamine (0.34kg); MDI (1.08kg); 500SN (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, and different is to use 1,6-hexanediamine to replace quadrol, and each performance data of lubricating grease finished product that obtains sees Table 1.
Embodiment 11
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.79kg); Ursol D (0.32kg); MDI (1.10kg); 500SN (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, and different is to use Ursol D to replace quadrol, and each performance data of lubricating grease finished product that obtains sees Table 1.
Embodiment 12
Feed composition: overbased calcium sulphonate (total basicnumber is 400mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (0.69kg); Quadrol (0.23kg); MDI (1.28kg); 500SN (33kg).
Method by example 1 prepares overbased calcium sulphonate base eight polyurea greases, and different is not add oxidation inhibitor to p-di-iso-octyldiphenylamine, and each performance data of lubricating grease finished product that obtains sees Table 1.
In the lubricating grease that the present embodiment obtains, take lubricating grease weight as benchmark, consist of: non-newtonian fluid calcium sulphonate 41.5%; Eight polyureas 2.6%; Lubricating base oil 55.9%.
Comparative Examples 1
Feed composition: calcium sulfonate with high base number (total basicnumber is 320mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); 500SN (35.2kg); To p-di-iso-octyldiphenylamine (0.2kg).
A volume be 110L and with heating, stirring, circulation, cooling normal-pressure reaction kettle in to add the 30kg total basicnumber be that calcium sulfonate with high base number and 100 ℃ of kinematic viscosity of 15kg of 320mgKOH/g are 31mm 2The HVI150BS lubricating base oil of/s stirs, and heats to 60 ℃, constant temperature 10 minutes; Add the 2.8kg Witco 1298 Soft Acid, temperature is controlled at 65 ℃ of left and right, stirs 10 minutes; Add the aqueous solution of 4 times of the acetic acid of 0.56kg and acetic acid weight, stirred 10 minutes; Add 2.32kg boric acid and with 6 times of consoluet boric acid solution of hot water, stir, 80 ℃ of constant temperature 90 minutes, the material retrogradation became smectic; Be warmed up to 110 ℃ under stirring, kept 60 minutes, dehydration; Be warmed up at last 200 ℃ of constant temperature 5 minutes.Be cooled to 160 ℃, add 35.2kg lubricating base oil 500SN; Treat that temperature is cooled to 110 ℃, after adding 0.2kg to stir 10 minutes to p-di-iso-octyldiphenylamine, circulating filtration, homogenizing, the degassed finished product that obtains.Assay sees Table 1.
Comparative Examples 2
Feed composition: calcium sulfonate with high base number (total basicnumber is 320mgKOH/g, 30kg); 150BS (15kg); Witco 1298 Soft Acid (2.8kg); Acetic acid (0.56kg); Boric acid (2.32kg); Stearylamine (1.5kg); MDI (0.7kg); 500SN (33kg); To p-di-iso-octyldiphenylamine (0.2kg).
Method by example 1 prepares calcium sulfonate with high base number base two polyurea greases, and in reactant, the total basicnumber of newton's body calcium sulphonate is 320mgKOH/g and does not contain diamines, and each performance data of lubricating grease finished product that obtains sees Table 1.
Each lubricating grease properties of sample data of table 1
Figure BSA00000284793400091
Continued

Claims (20)

1. calcium sulphonate base eight polyurea greases take lubricating grease weight as benchmark, comprise following component:
1) non-newtonian fluid calcium sulphonate 10-70%; 2) eight polyureas 0.5-30%; 3) lubricating base oil, 10-80%, described lubricating grease is prepared by following steps:
(1) newton's body calcium sulphonate, part base oil and transforming agent are mixed, heat, treat that the material retrogradation becomes smectic, the dehydration that heats up, cooling;
(2) add the vulcabond that is dissolved in the part base oil, first add diamines to react, again add diamines to react, add at last monoamine to react again, the mol ratio of the added vulcabond of each time, diamines, diamines and monoamine is 4: 2: 1: 2;
(3) be warmed up to 200-220 ℃ of constant temperature refining, cooling, add the surplus base oil, add necessary additive, obtain finished product.
2. according to lubricating grease claimed in claim 1, wherein take lubricating grease weight as benchmark, comprise following component:
1) non-newtonian fluid calcium sulphonate 20-60%; 2) eight polyureas 1-20%; 3) lubricating base oil 20-70%.
3. according to lubricating grease claimed in claim 1, wherein said non-newtonian fluid calcium sulphonate is transformed by newton's body calcium sulphonate and obtains, and its total basicnumber is 250-450mgKOH/g.
4. according to lubricating grease claimed in claim 1, wherein, said eight polyureas have following structure:
Figure FSB00001061467400011
Wherein, R 1Alkyl, cycloalkyl or aryl, R 2Alkylidene group or arylidene, R 3Arylidene, alkylidene group or cycloalkylidene.
5. according to lubricating grease claimed in claim 4, wherein, R 1Be the phenyl of phenyl or replacement, or carbon number is 8~24 alkyl or cycloalkyl; R 2That phenylene or biphenylene or carbon number are 2~12 alkylidene group; R 3That carbon number is 6~30 arylidene, alkylidene group or cycloalkylidene.
6. according to lubricating grease claimed in claim 4, wherein, R 1Be the phenyl that phenyl or C1~C3 alkyl or halogen replace, or carbon number is 10~18 alkyl or cycloalkyl, R 2Be phenylene or biphenylene, or carbon number is 2~8 alkylidene group; R 3Be selected from least a in tolyl, methyldiphenyl base, dicyclohexyl methyl, an xylylene and hexylidene.
7. according to lubricating grease claimed in claim 1, in step (1), newton's body calcium sulphonate, part base oil Hybrid Heating are arrived 50-80 ℃, add successively required transforming agent to react, all transforming agents add rear intensification, at 80-90 ℃ of constant temperature 60-90 minute, when the reaction system retrogradation is smectic, be warming up to 100-120 ℃ of dehydration, taken off rear cooling until water.
8. according to lubricating grease claimed in claim 1, in step (2), add the vulcabond that is dissolved in the part base oil in the product of step (1), add diamines, reacted 2-8 minute, again added diamine reactant 2-8 minute, add monoamine reaction 2-8 minute.
9. according to lubricating grease claimed in claim 1, in step (3), the product intensification to step (2) at 100-120 ℃ of constant temperature 10-20 minute, is warmed up to 200-220 ℃ of constant temperature 5-10 minute at last; Be cooled to 150-160 ℃, add the surplus lubricating base oil, treat that temperature is cooled to 100-120 ℃, add necessary additive, stir circulating filtration, homogenizing, degassed.
10. according to lubricating grease claimed in claim 1, described newton's body calcium sulphonate is calcium mahogany sulfonate or calcium alkylbenzenesulfonate, and its total basicnumber is 250-450mgKOH/g.
11. according to lubricating grease claimed in claim 1, said transforming agent is selected from Fatty Alcohol(C12-C14 and C12-C18), lipid acid, aliphatic ketone, alkanoic, aliphatic amide, cycloalkanes amine, cycloalkanol, the ether of C1-C5, and one or more in boric acid, phosphonic acids, carbonic acid gas, phenol, aromatic alcohol, aromatic amine, C8-C20 alkyl benzene sulphonate (ABS), water, the add-on of transforming agent is the 2-30% of newton's body calcium sulphonate weight.
12. according to lubricating grease claimed in claim 1, said transforming agent is selected from Witco 1298 Soft Acid, acetic acid, water, the add-on of transforming agent is the 6-22% of newton's body calcium sulphonate weight.
13. according to lubricating grease claimed in claim 1, wherein, said monoamine structural formula is R 1-NH 2, R wherein 1Be alkyl, cycloalkyl or aryl, the carbon number of alkyl or cycloalkyl is 8~24, and aryl is the phenyl of phenyl or replacement.
14. according to the described lubricating grease of claim 13, R wherein 1Be the phenyl that phenyl or C1~C3 alkyl or halogen replace, or carbon number is 10~18 alkyl or cycloalkyl.
15. according to lubricating grease claimed in claim 1, wherein, said monoamine is the arylamine that is selected from aniline, m-chloro aniline, p-Chlorobenzoic acid amide and/or para-totuidine, and/or is selected from the aliphatic amide of amino dodecane, tetradecy lamine, cetylamine and/or stearylamine.
16. according to lubricating grease claimed in claim 1, wherein, said diamines structural formula is NH 2-R 2-NH 2, R wherein 2Be alkylidene group or arylidene, the carbon number of alkylidene group is 2~12, and arylidene is phenylene or biphenylene.
17. according to lubricating grease claimed in claim 1, wherein, said diamines is selected from Ursol D, O-Phenylene Diamine, 4,4, the aromatic amine of-benzidine, and/or be selected from quadrol, propylene diamine, 1, the straight-chain fatty amine of 6-hexanediamine.
18. according to lubricating grease claimed in claim 1, wherein, said vulcabond structure is OCN-R 3-NCO, R 3That carbon number is 6~30 arylidene, alkylidene group or cycloalkylidene.
19. according to the described lubricating grease of claim 18, wherein, R 3That carbon number is 6~20 arylidene, alkylidene group or cycloalkylidene.
20. according to lubricating grease claimed in claim 1, wherein, described vulcabond is selected from tolylene diisocyanate, the methyldiphenyl group diisocyanate, the hexamethylene vulcabond, dicyclohexyl methyl vulcabond, or at least a in an xylylene vulcabond.
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CN103571588B (en) * 2012-07-30 2015-07-29 中国石油化工股份有限公司 A kind of Calcium naphthenate base eight polyurea grease and preparation method thereof
CN104450116B (en) * 2013-09-13 2018-01-05 中国石油化工股份有限公司 A kind of sulfoacid calcium calcium naphthenate base octa-polyurea lubricating grease and preparation method thereof
CN104450110B (en) * 2013-09-13 2018-01-05 中国石油化工股份有限公司 A kind of sulfoacid calcium Calcium naphthenate base polyurea grease and preparation method thereof
CN104450113B (en) * 2013-09-13 2018-01-05 中国石油化工股份有限公司 A kind of high base number composite calcium-base octa-polyurea lubricating grease and preparation method thereof
CN104560318B (en) * 2013-10-29 2017-12-22 中国石油化工股份有限公司 A kind of polyurea grease of calcium naphthenate zirconium base six and preparation method thereof
CN106032482B (en) * 2015-03-11 2019-01-08 中国石油化工股份有限公司 Lubricant composition and preparation method thereof
CN108003964B (en) * 2016-10-27 2021-04-06 中国石油化工股份有限公司 Lubricating grease and preparation method thereof

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CN101575548A (en) * 2009-06-11 2009-11-11 杭州得润宝油脂有限公司 Lubricating grease special for constant-speed universal joint and preparing method thereof

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