CN103289789B - Composite calcium-base hexa-polyurea lubricating grease and preparation method thereof - Google Patents

Abstract

The invention relates to a composite calcium-base hexa-polyurea lubricating grease and a preparation method thereof. The preparation method comprises the following steps: (1) in the presence of lubricating base oil, carrying out contact reaction on calcium hydroxide, higher fatty acid and aromatic acid, heating to dehydrate the reaction mixture, and cooling to 50-80 DEG C to obtain a composite calcium-base lubricating grease; and (2) adding diisocyanate, diamine and monoamine into the composite calcium-base lubricating grease, carrying out contact reaction at 80-120 DEG C, and heating the reaction mixture for refinement, wherein the diisocyanate:diamine:monoamine mol ratio is (2.9-3.1):(1.9-2.1):2. The composite calcium-base hexa-polyurea lubricating grease provided by the invention has excellent comprehensive properties.

Description

A kind of composite calcium-base six polyurea grease and preparation method thereof

Technical field

The present invention relates to a kind of preparation method of composite calcium-base six polyurea grease, and composite calcium-base six polyurea grease prepared by the method.

Background technology

Polyurea grease (abbreviation polyurea grease) is the lubricating grease prepared by the organic compound multiviscosisty base oil containing urea groups in molecule.Because polyurea thickening agent is different from metal soap base viscosifying agent, not metal ion, to avoid in soap base viscosifying agent metal ion to the catalysed oxidn of grease base oil, therefore polyurea grease has good oxidation stability and thermostability, makes polyurea grease be more suitable for the lubrication of hot conditions.

At present, the report of article and patent mainly concentrates on preparation and the synthesis aspect of two polyurea greases, and two polyurea grease shear stabilities are poor, works 100,000 times and work 60 cone penetration differences all more than 80 units.Little to the report of six polyurea greases.The salient features such as dropping point, extreme pressure property, colloid stability, oxidation stability of six polyurea greases increases than existing two polyurea greases.Therefore there is more excellent PERFORMANCE OF GREASES, and can be widely used.But, because the shear stability of six polyurea greases is not good, thus limit its application under the working condition of high temperature, high speed and heavy loading.

Complex calcium lubricating grease is the high dropping point grease developed the earliest, a kind of heatproof, withstand voltage, broad-spectrum excellent lubricating grease, there is good mechanical stability, colloid stability and anti-water drenching energy, but sclerosis problem is its widely used lethal factor of restriction, improve the main contents that sclerosis problem is complex calcium lubricating grease research always.

In order to solve the sclerosis problem that complex calcium lubricating grease exists, those skilled in the art attempt to introduce polyurea grease in complex calcium lubricating grease, such as, US5084193 discloses lubricating grease containing polyureas and calcium complex soap and preparation method thereof, the method comprises: first prepare polyurea grease and prepare composite calcium-base fat again, but after preparing polyurea grease, reactor temperature can up to 89-90 DEG C, follow-uply there will be phenomenon of seriously volatilizing when adding short chain acids again, and the over-all properties of the complex calcium lubricating grease prepared according to the method is not good, remains to be further improved.CN1364859A and CN1657599A individually discloses calcium base polyurea grease, but the polyureas that they use is all two polyureas, and their shear stability does not still improve.

Summary of the invention

The object of the invention is the above-mentioned defect existed to overcome existing lubricating grease, providing a kind of new composite calcium-base six polyurea grease and preparation method thereof.

The invention provides a kind of preparation method of composite calcium-base six polyurea grease, the method comprises the following steps:

(1) under the existence of lubricating base oil, by calcium hydroxide, higher fatty acid and aromatic acid contact reacts, the mixture obtained is carried out intensification dehydration, be then cooled to 50-80 DEG C, obtain complex calcium lubricating grease after reaction;

(2) in described complex calcium lubricating grease, vulcabond, diamines and monoamine is added, contact reacts is carried out at 80-120 DEG C, and refining that the mixture obtained after reaction is heated up, wherein, the mol ratio of the consumption of vulcabond, diamines and monoamine is (2.9-3.1): (1.9-2.1): 2.

The invention provides composite calcium-base six polyurea grease prepared by aforesaid method.

Described composite calcium-base six polyurea grease prepared by method according to the present invention has excellent over-all properties, concrete, by introducing six polyureas, overcomes the problem of the sclerosis that traditional complex calcium lubricating grease exists; By introducing the mixture of higher fatty acid calcium and aromatic acid calcium, overcome the defect that the over-all properties of traditional polyurea grease existence is bad.

Other features and advantages of the present invention are described in detail in embodiment part subsequently.

Accompanying drawing explanation

Fig. 1 is the infrared analysis spectrogram of six polyureas in the lubricating grease of embodiment 1 preparation;

Fig. 2 is the nuclear magnetic resonance spectroscopy spectrogram of six polyureas in the lubricating grease of embodiment 1 preparation;

Fig. 3 is the Electrospray Ionization Mass Spectrometry spectrogram of six polyureas in the lubricating grease of embodiment 1 preparation.

Embodiment

The preparation method of composite calcium-base six polyurea grease according to the present invention comprises the following steps:

(1) under the existence of lubricating base oil, by calcium hydroxide, higher fatty acid and aromatic acid contact reacts, the mixture obtained after reaction is carried out intensification dehydration, be then cooled to 50-80 DEG C (being preferably 60-75 DEG C), obtain complex calcium lubricating grease;

(2) in described complex calcium lubricating grease, vulcabond, diamines and monoamine is added, contact reacts is carried out at 80-120 DEG C, and refining that the mixture obtained after reaction is heated up, wherein, the mol ratio of the consumption of vulcabond, diamines and monoamine is (2.9-3.1): (1.9-2.1): 2.

Method according to the present invention, in step (1), in order to improve the over-all properties of composite calcium-base six polyurea grease prepared by method according to the present invention further, particularly mechanical stability, colloid stability and anti-water drenching energy, described aromatic acid is preferably the mixture of unitary aromatic acid and binary aromatic acid.More preferably, in the mixture of unitary aromatic acid and binary aromatic acid, the mol ratio of described unitary aromatic acid and described binary aromatic acid is 0.1-2: 1, more preferably 0.2-0.8: 1.

In step (1), the catalytic condition of calcium hydroxide, higher fatty acid and aromatic acid can comprise: temperature of reaction is 80-90 DEG C, and the reaction times is 10-60 minute.

In one embodiment, the specific operation process of step (1) can comprise: by the aqueous solution of lubricating base oil and calcium hydroxide, add aromatic acid, reaction 10-15 minute, be warming up to 80-90 DEG C, add higher fatty acid, be uniformly mixed 20-30 minute, be warming up to 105-110 DEG C to dewater, be then cooled to 50-80 DEG C.

In another embodiment, the specific operation process of step (1) can comprise: mixed with higher fatty acid and aromatic acid by lubricating base oil, be warming up to 80-90 DEG C, add calcium hydroxide aqueous solution, be uniformly mixed 40-60 minute, be warming up to 105-110 DEG C to dewater, be then cooled to 50-80 DEG C.

Under preferable case, the ratio of the integral molar quantity of the molar weight of calcium hydroxide and the carboxyl in described higher fatty acid and the carboxyl in aromatic acid is 0.4-0.6: 1, is more preferably 0.5-0.55: 1, most preferably is 0.5: 1.

Under preferable case, the mol ratio of described higher fatty acid and described aromatic acid is 1: 0.1-10, is more preferably 1: 0.2-5.

Described higher fatty acid can be the higher fatty acid that this area routine uses, such as, can be the straight chain fatty acid of C12-C24 or the hydroxy fatty acid of C12-C24.Preferably, described higher fatty acid is be selected from least one in lauric acid, oleic acid, palmitinic acid, stearic acid, 12-oxystearic acid and eicosyl carboxylic acid.

The structural formula of described unitary aromatic acid preferably such as formula shown in (I),

Wherein, R ₂, R ₃, R ₄, R ₅and R ₆be the fluorinated aryl of hydrogen, the alkyl of C1-C5, the thiazolinyl of C2-C5, the alkynyl of C2-C5, the aryl of C6-C12, the fluoro-alkyl of C1-C5 or C6-C12 independently of one another.

Under preferable case, R ₂, R ₃, R ₄, R ₅and R ₆be the alkyl of hydrogen or C1-C5 independently of one another.

More preferably, R ₂, R ₃, R ₄, R ₅and R ₆be the alkyl of hydrogen or C1-C2 independently of one another.

Most preferably, described unitary aromatic acid is at least one in phenylformic acid, p-methylbenzoic acid, o-toluic acid and m-methyl benzoic acid.

The structural formula of described binary aromatic acid preferably such as formula shown in (II),

Wherein, R ₇, R ₈, R ₉, R ₁₀and R ₁₁in one be carboxyl, the alkyl of C1-C5 of carboxyl substituted or the aryl of the C6-C12 of carboxyl substituted, R ₇, R ₈, R ₉, R ₁₀and R ₁₁in other four be the fluorinated aryl of hydrogen, the alkyl of C1-C5, the thiazolinyl of C2-C5, the alkynyl of C2-C5, the aryl of C6-C12, the fluoro-alkyl of C1-C5 or C6-C12 independently of one another.

Under preferable case, R ₇, R ₈, R ₉, R ₁₀and R ₁₁in one be the phenyl of carboxyl, carboxymethyl or carboxyl substituted, R ₇, R ₈, R ₉, R ₁₀and R ₁₁in other four be the alkyl of hydrogen or C1-C2 independently of one another.

Still more preferably, described binary aromatic acid is at least one in phthalic acid, m-phthalic acid, terephthalic acid and biphenyl dicarboxylic acid (as 4,4 '-biphenyl dicarboxylic acid).

Most preferably, described binary aromatic acid is terephthalic acid and/or 4,4 '-biphenyl dicarboxylic acid.

In step (2), the condition of described refining can comprise: temperature is 200-220 DEG C, and the time is 1-30 minute.

In a preferred embodiment, in described complex calcium lubricating grease, add vulcabond, diamines and monoamine and at 80-120 DEG C, carry out catalytic process and preferably include: by described complex calcium lubricating grease and the mixing of a part of vulcabond, then monoamine is added, be warming up to 80-90 DEG C of reaction 10-40 minute, then diamines is added, and 10-40 minute is reacted at 80-90 DEG C, then another part vulcabond is added, and 10-40 minute is reacted at 80-90 DEG C, keep 10-40 minute at being then warming up to 100-120 DEG C.

In above-mentioned preferred implementation, the described a part of vulcabond first added can account for the 50-80 % by mole of the total consumption of vulcabond, after described another part vulcabond of adding can account for the 20-50 % by mole of the total consumption of vulcabond.Preferably, described a part of vulcabond accounts for the 60-70 % by mole of the total consumption of vulcabond, and described another part vulcabond accounts for the 30-40 % by mole of the total consumption of vulcabond.Most preferred, the mole dosage of described a part of vulcabond accounts for 2/3 of the total mole dosage of vulcabond, and the mole dosage of described another part vulcabond accounts for 1/3 of the total mole dosage of vulcabond.

In above-mentioned preferred implementation, monoamine preferably adds with the form of the mixture of monoamine and lubricating base oil.Described monoamine mixes with lubricating base oil preferably by by monoamine with the mixture of lubricating base oil, is then heated to 50-60 DEG C and obtains.

In above-mentioned preferred implementation, after another part vulcabond of adding preferably add with the form of the mixture of vulcabond and lubricating base oil.Described vulcabond mixes with lubricating base oil preferably by by vulcabond with the mixture of lubricating base oil, is then heated to 50-60 DEG C and obtains.

Method according to the present invention, in step (2), the mol ratio of the consumption of vulcabond, diamines and monoamine most preferably is 3: 2: 2.

The general formula of described monoamine can be R ¹nH ₂, wherein, R ¹can be the alkyl of C8-C24, the cycloalkyl of C8-C24 or C6-C10 aryl.In the present invention, the alkyl of described C8-C24 can be substituted or unsubstituted alkyl, and substituting group can be halogen, such as Cl, Br usually; The cycloalkyl of described C8-C24 can be substituted or unsubstituted cycloalkyl, and substituting group can be halogen, such as Cl, Br usually; Described C6-C10 aryl can be substituted or unsubstituted aryl, and substituting group can be the alkyl of halogen (such as Cl, Br), C1-C5 usually.Under preferable case, R ¹the phenyl that the phenyl replaced for the alkyl of the cycloalkyl of the alkyl of C10-C18, C10-C18, phenyl, C1-C3 or halogen (such as Cl, Br) replace.Preferred, described monoamine is at least one in aniline, m-chloro aniline, p-Chlorobenzoic acid amide, para-totuidine, amino dodecane, tetradecy lamine, cetylamine and stearylamine.

The general formula of described diamines can be NH ₂-R ²-NH ₂, wherein, R ²for the alkylidene group of C2-C12 or the arylidene of C6-C14, be preferably the alkylidene group of C2-C8, phenylene or biphenylene.Preferred, described diamines is quadrol, propylene diamine, 1,6-hexanediamine, Ursol D, O-Phenylene Diamine and 4, at least one in 4 '-benzidine.

Described vulcabond can for being dissolved in the vulcabond of the various routines in described lubricating base oil, and its general formula can be OCN-R ³-NCO, wherein, R ³can be the arylidene of the alkylidene group of C6-C30, the cycloalkylidene of C6-C30 or C6-C30, be preferably xylylene or hexylidene between xylene, methylenediphenyl, sub-dicyclohexylmethyl, Asia.Preferred, described vulcabond is at least one in tolylene diisocyanate, methylenediphenyl diisocyanates, hexamethylene vulcabond, dicyclohexylmethyl vulcabond and an xylylene diisocyanate.

Method according to the present invention, relative to the consumption of the described lubricating base oil of 100 weight parts, total consumption of calcium hydroxide, higher fatty acid and aromatic acid in step (1) can be 2.2-36 weight part, is preferably 5-25 weight part; Total consumption of vulcabond, diamines and monoamine in step (2) can be 0.5-22 weight part, is preferably 3-15 weight part.

Method according to the present invention, described lubricating base oil can all add in step (1), also can add a part of lubricating base oil in step (1), in step (2), add another part lubricating base oil.

Under preferable case, with total consumption of lubricating base oil described in whole preparation process for benchmark, in step (1), add the lubricating base oil of 50-70 % by weight, in step (2), add the lubricating base oil of 30-50 % by weight.Concrete, in step (2), lubricating base oil can be added by least one mode in following three kinds of modes: a) be dissolved in lubricating base oil by monoamine, in the process adding monoamine, add lubricating base oil; B) vulcabond is dissolved in lubricating base oil, by adding lubricating base oil in the process adding described another part vulcabond; C) after completing refining, naturally cooling to 145-155 DEG C by refining the lubricating grease obtained, then adding lubricating base oil and carrying out chilling, to be cooled to less than 120 DEG C, be preferably 100-120 DEG C.Further preferably, the 5-45 % by weight of the total consumption of lubricating base oil in step (2) is accounted for by the lubricating base oil that a) mode adds, accounted for the 5-45 % by weight of the total consumption of lubricating base oil in step (2) by the lubricating base oil that b) mode adds, accounted for the 50-90 % by weight of the total consumption of lubricating base oil in step (2) by the lubricating base oil that c) mode adds.

In the present invention, described lubricating base oil can be the various lubricating base oils that this area routine uses, such as, can be 100 DEG C of viscosity be 2-150mm ²/ s (is preferably 2-100mm ²/ s, is more preferably 8-50mm ²/ s) lubricating base oil.Concrete, described lubricating base oil can be such as at least one in mineral oil, vegetables oil and synthetic oil.Described synthetic oil can be poly-a-olefin oil (PAO), Esters oil, alkyl-silicone oil, F-T synthesis wet goods.

Method according to the present invention can also be included in step (1) and/or step (2) other the various additives adding this area routine and use, and described additive can be such as at least one in extreme pressure anti-wear additives, oxidation inhibitor and rust-preventive agent.Relative to the consumption of the described lubricating base oil of 100 weight parts, total consumption of described extreme pressure anti-wear additives, oxidation inhibitor and rust-preventive agent can be 0.1-15 % by weight, is preferably 0.5-10 weight part.

Described extreme pressure anti-wear additives can be such as at least one in dithio Acidic phosphates zinc, dithio dialkyl amido zinc formate, triphenylphosphorothionate, organic molybdenum complex compound, olefine sulfide, molybdenumdisulphide, tetrafluoroethylene, thiophosphoric acid molybdenum, clorafin, dibutyl dithiocaarbamate antimony, tungsten disulfide, Selenium Sulfide, fluorographite, calcium carbonate and zinc oxide.

Described oxidation inhibitor is preferably arylamine kind antioxidant, and described arylamine kind antioxidant can be such as at least one in the amino p-cresol of pentanoic, di-iso-octyldiphenylamine, phenyl-a-naphthylamine, 2,6 ditertiary butyl p cresol and 2,6-di-t-butyl-alpha, alpha-dimethyl.

Described rust-preventive agent can be such as at least one in barium mahogany sulfonate, petroleum sodium sulfonate, benzothiazole, benzotriazole, zinc naphthenate and alkenyl succinic acid.

Present invention also offers composite calcium-base six polyurea grease prepared by aforesaid method.Described composite calcium-base six polyurea grease has excellent over-all properties, particularly has preferably mechanical stability, colloid stability and anti-water drenching energy.

The invention will be further described by the following examples.

The separation method of six polyureas: first by lubricating grease sherwood oil (boiling point 60-90 DEG C) washing, filtration is precipitated, and the dilute acetic acid solution precipitated with 5 % by weight is soaked 5-10 minute and stirred, filters, filter residue use water cleans, then uses the NaHCO of 1 % by weight ₃solution soaking, filters, and when being 7 by the cleaning of filter residue water to filtrate pH value, the precipitation obtained being carried out drying, obtains six polyureas.

Embodiment 1

The present embodiment is for illustration of described composite calcium-base six polyurea grease of the present invention and preparation method thereof.

Feed composition: (purchased from Exxon Mobil chemical company, 100 DEG C of viscosity are 11mm to HVI500SN base oil ²/ s): 862g; Stearylamine (purchased from ACROS company): 24.85g; Quadrol: 5.54g; 4,4 '-diphenylmethanediisocyanate (purchased from ACROS company, MDI): 34.61g; Terephthalic acid: 29.05g; Phenylformic acid: 10.68g; Ca (OH) ₂: 19.11g; 12-oxystearic acid (purchased from prestige Ninghua, Tongliao City work limited liability company): 23.7g; Tungsten disulfide: 7.5g; Selenium Sulfide: 12.5g; Fluorographite: 12.5g; Di-iso-octyldiphenylamine: 7.5g; Zinc naphthenate: 12.5g;

500g HVI500SN base oil is mixed with 23.7g 12-oxystearic acid, 29.05g terephthalic acid and 10.68g phenylformic acid, stir, be warming up to 80 DEG C, drip the lime milk solution containing 19.11g calcium hydroxide wherein, rapid stirring saponification 60 minutes, is warming up to 105 DEG C, after finished off water, be cooled to 60 DEG C, obtain complex calcium lubricating grease.In described complex calcium lubricating grease, add 23.07g MDI, be heated to 50 DEG C, obtain mixture A1; By 24.85g stearylamine and the mixing of 100g HVI500SN base oil, be heated to 50 DEG C, and add in mixture A1, be then warming up to 85 DEG C of reactions 30 minutes, add 5.54g quadrol, at 85 DEG C, isothermal reaction 30 minutes, obtains mixture A2; By 11.54g MDI and the mixing of 100g HVI500SN base oil, be heated to 50 DEG C, and add in mixture A2, isothermal reaction 30 minutes at 85 DEG C, be warming up to 110 DEG C afterwards and keep 30 minutes; Then, be warming up to 210 DEG C, keep 10 minutes, naturally cool to 150 DEG C, add 162g HVI500SN base oil afterwards again, when temperature is cooled to 110 DEG C, add 7.5g tungsten disulfide, 12.5g Selenium Sulfide, 12.5g fluorographite, 7.5g di-iso-octyldiphenylamine and 12.5g zinc naphthenate, after stirring, carry out circulating filtration, homogenizing, degassed successively, obtain composite calcium-base six polyurea grease.

From described composite calcium-base six polyurea grease, isolate six polyureas, and isolated six polyureas are carried out infrared analysis, nuclear magnetic resonance spectroscopy and Electrospray Ionization Mass Spectrometry respectively, obtain spectrogram as shown in Figure 1-Figure 3.As can be seen from Figure 1,3310cm ^-1~ 3323cm ^-1the peak at place is the stretching vibration absorption peak of-NH-in six polyureas molecules, 1630cm ^-1the peak at place is the vibration absorption peak of-CO-in six polyureas molecules; As can be seen from Figure 2, the peak of about δ=155HZ is the chemical shift of-CO-in six polyureas molecules; As can be seen from Figure 3, the mass-to-charge ratio of sample is 1411.0m/z, and the relative molecular mass of this and six polyureas matches.Therefore, can be determined by the spectral data of Fig. 1-Fig. 3, the molecular structural formula of six polyureas in this composite calcium-base six polyurea grease is as follows.

Comparative example 1

Prepare composite calcium-base six polyurea grease according to the method for embodiment 1, difference is, replaces terephthalic acid and benzoic mixture with the acetic acid of 26.3g, thus obtained composite calcium-base six polyurea grease.

Comparative example 2

Prepare composite calcium-base polyurea grease according to the method for embodiment 1, difference is, does not add quadrol, thus obtained composite calcium-base two polyurea grease.

Embodiment 2

The present embodiment is for illustration of described composite calcium-base six polyurea grease of the present invention and preparation method thereof.

Prepare composite calcium-base six polyurea grease according to the method for embodiment 1, difference is, replaces terephthalic acid with the phenylformic acid of 2 times of molar weights, thus obtained composite calcium-base six polyurea grease.

Embodiment 3

The present embodiment is for illustration of described composite calcium-base six polyurea grease of the present invention and preparation method thereof.

Prepare composite calcium-base six polyurea grease according to the method for embodiment 1, difference is, replaces terephthalic acid with the m-phthalic acid of same molar, thus obtained composite calcium-base six polyurea grease.

Embodiment 4

The present embodiment is for illustration of described composite calcium-base six polyurea grease of the present invention and preparation method thereof.

Prepare composite calcium-base six polyurea grease according to the method for embodiment 1, difference is, does not add other additives, as tungsten disulfide, Selenium Sulfide, fluorographite, di-iso-octyldiphenylamine and zinc naphthenate, thus obtained composite calcium-base six polyurea grease.

Embodiment 5

The present embodiment is for illustration of described composite calcium-base six polyurea grease of the present invention and preparation method thereof.

Feed composition: (purchased from China National Offshore Oil Corporation (CNOOC), 100 DEG C of viscosity are 12mm to naphthene base crude oil ²/ s): 810.6g; Amino dodecane (purchased from ACROS company): 10g; 1,6-hexanediamine (purchased from ACROS company): 6.3g; Tolylene diisocyanate (purchased from ACROS company, TDI): 14.1g; 4,4 '-biphenyl dicarboxylic acid: 96.80g; P-methylbenzoic acid: 12.24g; Ca (OH) ₂: 36.63g; Eicosyl carboxylic acid (purchased from ACROS company): 31.25g; Tungsten disulfide: 2.5g; Selenium Sulfide: 2.5g; Calcium carbonate: 2.5g; Di-iso-octyldiphenylamine: 2.5g; Barium mahogany sulfonate: 2.5g;

450g naphthene base crude oil is mixed with the lime milk solution containing 36.63g calcium hydroxide, stir, add 96.80g 4 wherein, 4 '-biphenyl dicarboxylic acid and 12.24g p-methylbenzoic acid, react 15 minutes, be warming up to 85 DEG C, add eicosyl carboxylic acid 31.25g, saponification 20 minutes, be warming up to 110 DEG C, after finished off water, be cooled to 75 DEG C, obtain complex calcium lubricating grease.In described complex calcium lubricating grease, add 9.4g TDI, be heated to 50 DEG C, obtain mixture B1; By 10g amino dodecane and the mixing of 100g naphthene base crude oil, be heated to 50 DEG C, and add in mixture B1, be then warming up to 80 DEG C of reactions 35 minutes, add 6.3g 1,6-hexanediamine, at 80 DEG C, isothermal reaction 35 minutes, obtains mixture B2; By 4.7g TDI and the mixing of 100g naphthene base crude oil, be heated to 50 DEG C, and add in mixture B2, isothermal reaction 35 minutes at 80 DEG C, be warming up to 100 DEG C afterwards and keep 35 minutes; Then, be warming up to 220 DEG C, keep 10 minutes, naturally cool to 150 DEG C, add 160.6g naphthene base crude oil more afterwards, when temperature is cooled to 110 DEG C, add 2.5g tungsten disulfide, 2.5g Selenium Sulfide, 2.5g calcium carbonate, 2.5g di-iso-octyldiphenylamine and 2.5g barium mahogany sulfonate, after stirring, carry out circulating filtration, homogenizing, degassed successively, obtain composite calcium-base six polyurea grease.

Embodiment 6

The present embodiment is for illustration of described composite calcium-base six polyurea grease of the present invention and preparation method thereof.

Feed composition: (purchased from Exxon Mobil chemical company, 100 DEG C of kinematic viscosity are 10mm to poly alpha olefine synthetic oil PAO 10 ²/ s): 818.5g; Para-totuidine (purchased from ACROS company): 29.96g; 4,4 '-benzidine (purchased from ACROS company): 51.54g; Hexamethylene diisocyanate (purchased from ACROS company, HMDI): 63g; 4,4 '-biphenyl dicarboxylic acid: 4.11g; M-methyl benzoic acid: 1.77g; Ca (OH) ₂: 6.92g; Lauric acid (purchased from ACROS company): 28g; Tungsten disulfide: 2.5g; Selenium Sulfide: 2.5g; Calcium carbonate: 2.5g; Di-iso-octyldiphenylamine: 2.5g; Barium mahogany sulfonate: 2.5g;

500g poly alpha olefine synthetic oil PAO 10 is mixed with the lime milk solution containing 6.92g calcium hydroxide, stir, add 4.11g 4 wherein, 4 '-biphenyl dicarboxylic acid and 1.77g m-methyl benzoic acid, react 15 minutes, be warming up to 90 DEG C, add lauric acid 28g, saponification 10 minutes, be warming up to 120 DEG C, after finished off water, be cooled to 70 DEG C, obtain complex calcium lubricating grease.In described complex calcium lubricating grease, add 42g HMDI, be heated to 50 DEG C, obtain mixture C 1; 29.96g para-totuidine and 100g poly alpha olefine synthetic oil PAO 10 are mixed, is heated to 50 DEG C, and add in mixture C 1, then be warming up to 90 DEG C of reactions 20 minutes, add 51.54g 4,4 '-benzidine, at 90 DEG C, isothermal reaction 20 minutes, obtains mixture C 2; 21g HMDI and 100g poly alpha olefine synthetic oil PAO 10 is mixed, is heated to 50 DEG C, and add in mixture C 2, isothermal reaction 20 minutes at 90 DEG C, be warming up to 120 DEG C afterwards and keep 20 minutes; Then, be warming up to 200 DEG C, keep 20 minutes, naturally cool to 150 DEG C, add 118.5g poly alpha olefine synthetic oil PAO 10 afterwards again, when temperature is cooled to 110 DEG C, add 2.5g tungsten disulfide, 2.5g Selenium Sulfide, 2.5g calcium carbonate, 2.5g di-iso-octyldiphenylamine and 2.5g barium mahogany sulfonate, after stirring, carry out circulating filtration, homogenizing, degassed successively, obtain composite calcium-base six polyurea grease.

Test case

(1) dropping point of various different lubricating grease is detected according to the method for GB/T 3498-2008;

(2) detect the Drawing cone in-degree of various different lubricating grease according to the method for GB/T 269-1991 and extend Drawing cone in-degree;

(3) the copper corrosion performance of various different lubricating grease is detected according to the method for GB/T 7326-1987;

(4) Stencil oil-dividing of various different lubricating grease is detected according to the method for SH/T 0324-1992;

(5) the water pouring number of dropouts of various different lubricating grease is detected according to the method for SH/T 0109-2004;

(6) P of various different lubricating grease is detected according to the method for SH/T 0202-1992 _b, P _dand wear scar diameter;

(7) respectively hardening test is carried out to various different lubricating grease according to the method for SH/T 0370-1995, to detect their resistance hardening energy;

Above-mentioned detected result is as shown in table 1 below.

Table 1

As can be seen from the data of table 1, composite calcium-base six polyurea grease according to the present invention overcomes the problem of the sclerosis that conventional complex calcium lubricating grease exists, and properties is all better, shows excellent over-all properties.Particularly, the Drawing cone in-degree difference of prepared according to the methods of the invention composite calcium-base six polyurea grease, front and back cone penetration difference of hardening, Stencil oil-dividing and water pouring number of dropouts are all obviously less, thus show excellent mechanical stability, colloid stability and anti-water drenching energy.

Claims (29)

1. a preparation method for composite calcium-base six polyurea grease, the method comprises the following steps:

(1) under the existence of lubricating base oil, by calcium hydroxide, higher fatty acid and aromatic acid contact reacts, the mixture obtained is carried out intensification dehydration, be then cooled to 50-80 DEG C, obtain complex calcium lubricating grease after reaction;

(2) in described complex calcium lubricating grease, vulcabond, diamines and monoamine is added, contact reacts is carried out at 80-120 DEG C, and refining that the mixture obtained after reaction is heated up, wherein, the mol ratio of the consumption of vulcabond, diamines and monoamine is (2.9-3.1): (1.9-2.1): 2;

The mol ratio of described higher fatty acid and described aromatic acid is 1:0.1-10; The ratio of the integral molar quantity of the molar weight of calcium hydroxide and the carboxyl in described higher fatty acid and the carboxyl in aromatic acid is 0.4-0.6:1.

2. method according to claim 1, wherein, in step (1), described aromatic acid is the mixture of unitary aromatic acid and binary aromatic acid.

3. method according to claim 2, wherein, the mol ratio of described unitary aromatic acid and described binary aromatic acid is 0.1-2:1.

4. method according to claim 3, wherein, the mol ratio of described unitary aromatic acid and described binary aromatic acid is 0.2-0.8:1.

5. according to the method in claim 1-4 described in any one, wherein, in step (1), described catalytic condition comprises: temperature of reaction is 80-90 DEG C, and the reaction times is 10-60 minute.

6. method according to claim 1, wherein, the mol ratio of described higher fatty acid and described aromatic acid is 1:0.2-5.

7. according to the method in claim 2-4 described in any one, wherein, the structural formula of described unitary aromatic acid such as formula shown in (I),

Wherein, R ₂, R ₃, R ₄, R ₅and R ₆be the fluorinated aryl of hydrogen, the alkyl of C1-C5, the thiazolinyl of C2-C5, the alkynyl of C2-C5, the aryl of C6-C12, the fluoro-alkyl of C1-C5 or C6-C12 independently of one another.

8. method according to claim 7, wherein, in formula (I), R ₂, R ₃, R ₄, R ₅and R ₆be the alkyl of hydrogen or C1-C2 independently of one another.

9. method according to claim 8, wherein, described unitary aromatic acid is at least one in phenylformic acid, p-methylbenzoic acid, o-toluic acid and m-methyl benzoic acid.

10. according to the method in claim 2-4 described in any one, wherein, the structural formula of described binary aromatic acid such as formula shown in (II),

Wherein, R ₇, R ₈, R ₉, R ₁₀and R ₁₁in one be carboxyl, the alkyl of C1-C5 of carboxyl substituted or the aryl of the C6-C12 of carboxyl substituted, R ₇, R ₈, R ₉, R ₁₀and R ₁₁in other four be the fluorinated aryl of hydrogen, the alkyl of C1-C5, the thiazolinyl of C2-C5, the alkynyl of C2-C5, the aryl of C6-C12, the fluoro-alkyl of C1-C5 or C6-C12 independently of one another.

11. methods according to claim 10, wherein, in formula (II), R ₇, R ₈, R ₉, R ₁₀and R ₁₁in one be the phenyl of carboxyl, carboxymethyl or carboxyl substituted, R ₇, R ₈, R ₉, R ₁₀and R ₁₁in other four be the alkyl of hydrogen or C1-C2 independently of one another.

12. methods according to claim 10, wherein, described binary aromatic acid is at least one in phthalic acid, m-phthalic acid, terephthalic acid and biphenyl dicarboxylic acid.

13. according to the method in claim 1-4 described in any one, and wherein, described higher fatty acid is the straight chain fatty acid of C12-C24 or the hydroxy fatty acid of C12-C24.

14. methods according to claim 13, wherein, described higher fatty acid is be selected from least one in lauric acid, oleic acid, palmitinic acid, stearic acid, 12-oxystearic acid and eicosyl carboxylic acid.

15. methods according to claim 1, wherein, in step (2), the condition of described refining comprises: temperature is 200-220 DEG C, and the time is 1-30 minute.

16. methods according to claim 1 or 15, wherein, in step (2), vulcabond is added in described complex calcium lubricating grease, diamines and monoamine also carry out catalytic process and comprise at 80-120 DEG C: by described complex calcium lubricating grease and the mixing of a part of vulcabond, then monoamine is added, be warming up to 80-90 DEG C of reaction 10-40 minute, then diamines is added, and 10-40 minute is reacted at 80-90 DEG C, then another part vulcabond is added, and 10-40 minute is reacted at 80-90 DEG C, then 10-40 minute is kept at being warming up to 100-120 DEG C.

17. methods according to claim 16, wherein, described a part of vulcabond accounts for the 60-70 % by mole of the total consumption of vulcabond, and described another part vulcabond accounts for the 30-40 % by mole of the total consumption of vulcabond.

18. methods according to claim 1, wherein, the mol ratio of the consumption of vulcabond, diamines and monoamine is 3:2:2.

19. methods according to claim 1 or 18, wherein, the general formula of described monoamine is R ¹nH ₂, wherein, R ¹for the alkyl of C8-C24, the cycloalkyl of C8-C24 or C6-C10 aryl.

20. methods according to claim 19, wherein, described monoamine is at least one in aniline, m-chloro aniline, p-Chlorobenzoic acid amide, para-totuidine, amino dodecane, tetradecy lamine, cetylamine and stearylamine.

21. methods according to claim 1 or 18, wherein, the general formula of described diamines is NH ₂-R ²-NH ₂, wherein, R ²for the alkylidene group of C2-C12 or the arylidene of C6-C14.

22. methods according to claim 21, wherein, described diamines is quadrol, propylene diamine, 1,6-hexanediamine, Ursol D, O-Phenylene Diamine and 4, at least one in 4 '-benzidine.

23. methods according to claim 1 or 18, wherein, the general formula of described vulcabond is OCN-R ³-NCO, wherein, R ³for the arylidene of the alkylidene group of C6-C30, the cycloalkylidene of C6-C30 or C6-C30.

24. methods according to claim 23, wherein, described vulcabond is at least one in tolylene diisocyanate, methylenediphenyl diisocyanates, hexamethylene vulcabond, dicyclohexylmethyl vulcabond and an xylylene diisocyanate.

25. according to the method in claim 1-4 and 18 described in any one, wherein, relative to the consumption of the described lubricating base oil of 100 weight parts, total consumption of calcium hydroxide, higher fatty acid and aromatic acid in step (1) is 2.2-36 weight part, and total consumption of vulcabond, diamines and monoamine in step (2) is 0.5-22 weight part.

26. according to the method in claim 1-4 and 18 described in any one, and wherein, described method is also included in step (1) and/or step (2) at least one added in extreme pressure anti-wear additives, oxidation inhibitor and rust-preventive agent.

27. methods according to claim 26, wherein, relative to the consumption of the described lubricating base oil of 100 weight parts, total consumption of described extreme pressure anti-wear additives, oxidation inhibitor and rust-preventive agent is 0.1-15 weight part.

28. methods according to claim 26, wherein, described extreme pressure anti-wear additives is at least one in dithio Acidic phosphates zinc, dithio dialkyl amido zinc formate, triphenylphosphorothionate, organic molybdenum complex compound, olefine sulfide, molybdenumdisulphide, tetrafluoroethylene, thiophosphoric acid molybdenum, clorafin, dibutyl dithiocaarbamate antimony, tungsten disulfide, Selenium Sulfide, fluorographite, calcium carbonate and zinc oxide; Described oxidation inhibitor is at least one in the amino p-cresol of pentanoic, di-iso-octyldiphenylamine, phenyl-a-naphthylamine, 2,6 ditertiary butyl p cresol and 2,6-di-t-butyl-alpha, alpha-dimethyl; Described rust-preventive agent is at least one in barium mahogany sulfonate, petroleum sodium sulfonate, benzothiazole, benzotriazole, zinc naphthenate and alkenyl succinic acid.

29. composite calcium-base prepared by the method in claim 1-28 described in any one six polyurea greases.