WO2022211119A1 - グリース組成物 - Google Patents
グリース組成物 Download PDFInfo
- Publication number
- WO2022211119A1 WO2022211119A1 PCT/JP2022/016962 JP2022016962W WO2022211119A1 WO 2022211119 A1 WO2022211119 A1 WO 2022211119A1 JP 2022016962 W JP2022016962 W JP 2022016962W WO 2022211119 A1 WO2022211119 A1 WO 2022211119A1
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- WIPO (PCT)
- Prior art keywords
- grease composition
- grease
- group
- urea
- mass
- Prior art date
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- 239000004519 grease Substances 0.000 title claims abstract description 243
- 239000000203 mixture Substances 0.000 title claims abstract description 183
- 239000002245 particle Substances 0.000 claims abstract description 101
- ZQKXQUJXLSSJCH-UHFFFAOYSA-N melamine cyanurate Chemical compound NC1=NC(N)=NC(N)=N1.O=C1NC(=O)NC(=O)N1 ZQKXQUJXLSSJCH-UHFFFAOYSA-N 0.000 claims abstract description 73
- 239000004202 carbamide Substances 0.000 claims abstract description 69
- XSQUKJJJFZCRTK-UHFFFAOYSA-N Urea Chemical compound NC(N)=O XSQUKJJJFZCRTK-UHFFFAOYSA-N 0.000 claims abstract description 67
- 239000002562 thickening agent Substances 0.000 claims abstract description 62
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- 238000007561 laser diffraction method Methods 0.000 claims abstract description 13
- 238000000790 scattering method Methods 0.000 claims abstract description 13
- -1 amine compounds Chemical class 0.000 claims description 98
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- 238000000034 method Methods 0.000 claims description 25
- FSYKKLYZXJSNPZ-UHFFFAOYSA-N sarcosine Chemical class C[NH2+]CC([O-])=O FSYKKLYZXJSNPZ-UHFFFAOYSA-N 0.000 claims description 21
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- FTQWRYSLUYAIRQ-UHFFFAOYSA-N n-[(octadecanoylamino)methyl]octadecanamide Chemical class CCCCCCCCCCCCCCCCCC(=O)NCNC(=O)CCCCCCCCCCCCCCCCC FTQWRYSLUYAIRQ-UHFFFAOYSA-N 0.000 claims description 3
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- NIXOWILDQLNWCW-UHFFFAOYSA-M Acrylate Chemical compound [O-]C(=O)C=C NIXOWILDQLNWCW-UHFFFAOYSA-M 0.000 description 2
- 238000012935 Averaging Methods 0.000 description 2
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical group [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 description 2
- HEDRZPFGACZZDS-UHFFFAOYSA-N Chloroform Chemical compound ClC(Cl)Cl HEDRZPFGACZZDS-UHFFFAOYSA-N 0.000 description 2
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- FLIACVVOZYBSBS-UHFFFAOYSA-N Methyl palmitate Chemical compound CCCCCCCCCCCCCCCC(=O)OC FLIACVVOZYBSBS-UHFFFAOYSA-N 0.000 description 2
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- JQVDAXLFBXTEQA-UHFFFAOYSA-N dibutylamine Chemical compound CCCCNCCCC JQVDAXLFBXTEQA-UHFFFAOYSA-N 0.000 description 2
- UKMSUNONTOPOIO-UHFFFAOYSA-N docosanoic acid Chemical compound CCCCCCCCCCCCCCCCCCCCCC(O)=O UKMSUNONTOPOIO-UHFFFAOYSA-N 0.000 description 2
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- 238000005227 gel permeation chromatography Methods 0.000 description 2
- CKDDRHZIAZRDBW-UHFFFAOYSA-N henicosanoic acid Chemical compound CCCCCCCCCCCCCCCCCCCCC(O)=O CKDDRHZIAZRDBW-UHFFFAOYSA-N 0.000 description 2
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- QSQLTHHMFHEFIY-UHFFFAOYSA-N methyl behenate Chemical compound CCCCCCCCCCCCCCCCCCCCCC(=O)OC QSQLTHHMFHEFIY-UHFFFAOYSA-N 0.000 description 2
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- XHSVWKJCURCWFU-UHFFFAOYSA-N 19-[3-(19-amino-19-oxononadecyl)phenyl]nonadecanamide Chemical compound NC(=O)CCCCCCCCCCCCCCCCCCC1=CC=CC(CCCCCCCCCCCCCCCCCCC(N)=O)=C1 XHSVWKJCURCWFU-UHFFFAOYSA-N 0.000 description 1
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Classifications
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M169/00—Lubricating compositions characterised by containing as components a mixture of at least two types of ingredient selected from base-materials, thickeners or additives, covered by the preceding groups, each of these compounds being essential
- C10M169/06—Mixtures of thickeners and additives
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M163/00—Lubricating compositions characterised by the additive being a mixture of a compound of unknown or incompletely defined constitution and a non-macromolecular compound, each of these compounds being essential
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2205/00—Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions
- C10M2205/02—Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions containing acyclic monomers
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2205/00—Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions
- C10M2205/02—Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions containing acyclic monomers
- C10M2205/028—Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions containing acyclic monomers containing aliphatic monomers having more than four carbon atoms
- C10M2205/0285—Organic macromolecular hydrocarbon compounds or fractions, whether or not modified by oxidation as ingredients in lubricant compositions containing acyclic monomers containing aliphatic monomers having more than four carbon atoms used as base material
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2207/00—Organic non-macromolecular hydrocarbon compounds containing hydrogen, carbon and oxygen as ingredients in lubricant compositions
- C10M2207/02—Hydroxy compounds
- C10M2207/023—Hydroxy compounds having hydroxy groups bound to carbon atoms of six-membered aromatic rings
- C10M2207/026—Hydroxy compounds having hydroxy groups bound to carbon atoms of six-membered aromatic rings with tertiary alkyl groups
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2215/00—Organic non-macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2215/02—Amines, e.g. polyalkylene polyamines; Quaternary amines
- C10M2215/04—Amines, e.g. polyalkylene polyamines; Quaternary amines having amino groups bound to acyclic or cycloaliphatic carbon atoms
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2215/00—Organic non-macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2215/08—Amides
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2215/00—Organic non-macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2215/10—Amides of carbonic or haloformic acids
- C10M2215/102—Ureas; Semicarbazides; Allophanates
- C10M2215/1026—Ureas; Semicarbazides; Allophanates used as thickening material
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2215/00—Organic non-macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2215/22—Heterocyclic nitrogen compounds
- C10M2215/221—Six-membered rings containing nitrogen and carbon only
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2215/00—Organic non-macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2215/30—Heterocyclic compounds
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10M—LUBRICATING COMPOSITIONS; USE OF CHEMICAL SUBSTANCES EITHER ALONE OR AS LUBRICATING INGREDIENTS IN A LUBRICATING COMPOSITION
- C10M2217/00—Organic macromolecular compounds containing nitrogen as ingredients in lubricant compositions
- C10M2217/04—Macromolecular compounds from nitrogen-containing monomers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds
- C10M2217/045—Polyureas; Polyurethanes
- C10M2217/0456—Polyureas; Polyurethanes used as thickening agents
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2020/00—Specified physical or chemical properties or characteristics, i.e. function, of component of lubricating compositions
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2020/00—Specified physical or chemical properties or characteristics, i.e. function, of component of lubricating compositions
- C10N2020/01—Physico-chemical properties
- C10N2020/02—Viscosity; Viscosity index
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2020/00—Specified physical or chemical properties or characteristics, i.e. function, of component of lubricating compositions
- C10N2020/01—Physico-chemical properties
- C10N2020/04—Molecular weight; Molecular weight distribution
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2020/00—Specified physical or chemical properties or characteristics, i.e. function, of component of lubricating compositions
- C10N2020/01—Physico-chemical properties
- C10N2020/055—Particles related characteristics
- C10N2020/06—Particles of special shape or size
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2030/00—Specified physical or chemical properties which is improved by the additive characterising the lubricating composition, e.g. multifunctional additives
- C10N2030/06—Oiliness; Film-strength; Anti-wear; Resistance to extreme pressure
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10N—INDEXING SCHEME ASSOCIATED WITH SUBCLASS C10M RELATING TO LUBRICATING COMPOSITIONS
- C10N2050/00—Form in which the lubricant is applied to the material being lubricated
- C10N2050/10—Semi-solids; greasy
Definitions
- the present invention relates to grease compositions.
- a grease composition is easier to seal than a lubricating oil, and can reduce the size and weight of machines to which it is applied. Therefore, it has been widely used for lubricating various sliding parts of automobiles, electrical equipment, industrial machinery, and the like.
- resin materials for sliding parts has been studied.
- the material of the worm is generally metal from the viewpoint of strength.
- the material of the worm wheel is selected from the viewpoints of reducing the weight of automobile parts, preventing unpleasant sounds such as rattling noise and vibration noise caused by contact with the worm (quietness), and preventing seizure with the worm. is often used.
- resins to be used for example, polyamide-based resins are known.
- a grease composition suitable for lubricating sliding portions composed of metal materials such as worms and resin materials such as worm wheels.
- Patent Literature 1 describes a lubricant composition suitable for lubricating a sliding portion composed of a metal material and a resin material, which contains a base oil containing a fluorine-based polyether oil and melamine cyanurate.
- a resin-metal sliding lubricant composition is disclosed.
- Patent Document 2 discloses a grease composition containing melamine cyanurate, which contains a base oil made of synthetic hydrocarbon oil, a thickener made of lithium soap, and melamine cyanurate. disclosed.
- JP 2012-102157 A Japanese Patent Application Laid-Open No. 2009-13350
- the resin-metal sliding lubricant composition disclosed in Patent Document 1 is not a grease composition containing a base oil and a thickener.
- the base oil is not a commonly used mineral oil or synthetic hydrocarbon oil.
- the grease composition disclosed in Patent Document 2 improves the frictional properties at the sliding portions between rubber members or between rubber members and resin members. Therefore, no study has been made on a grease composition that contains melamine cyanurate and is suitable for lubricating a sliding portion composed of a metal material and a resin material.
- an object of the present invention is to provide a grease composition with excellent wear resistance.
- the present inventors focused on the particle size of the particles containing the urea-based thickener in the grease composition containing the base oil and the urea-based thickener. Further, a grease composition containing melamine cyanurate and adjusting the arithmetic mean particle size on an area basis when the particles are measured by a laser diffraction/scattering method to a predetermined range can solve the above problems. and completed the present invention.
- FIG. 1 is a cross-sectional schematic diagram of a grease manufacturing apparatus used in one aspect of the present invention. It is a schematic diagram of the cross section in the direction orthogonal to a rotating shaft in the first uneven part by the side of the container main body of the grease manufacturing apparatus of FIG.
- the mass average molecular weight (Mw) and number average molecular weight (Mn) of each component are values converted to standard polystyrene measured by a gel permeation chromatography (GPC) method. means the value measured by the method described in .
- GPC gel permeation chromatography
- (meth)acrylate is used as a term indicating both "acrylate” and “methacrylate”, and the same applies to other similar terms and similar labels.
- the grease composition of the present invention is a grease composition containing a base oil (A), a urea-based thickener (B), and melamine cyanurate (C), wherein the urea-based thickener in the grease composition is A grease composition in which particles containing a consistency agent (B) satisfy the following requirement (I).
- base oil (A) urea-based thickener (B)
- melamine cyanurate (C) are respectively referred to as “component (A)”, “component (B)”, and also referred to as “component (C)”.
- the total content of component (A), component (B), and component (C) is preferably 60 mass based on the total amount (100 mass%) of the grease composition. % or more, more preferably 70 mass % or more, still more preferably 80 mass % or more, and even more preferably 90 mass % or more. Also, it is usually 100% by mass or less, preferably less than 100% by mass, more preferably 99% by mass or less, and even more preferably 98% by mass or less. Note that the grease composition of one embodiment of the present invention may contain components other than components (A), (B), and (C) within a range that does not impair the effects of the present invention.
- the grease composition of one aspect of the present invention may optionally contain an oiliness agent (D), an antiwear agent (E), a friction reducer (F), and an additive (G).
- oiliness agent (D)”, antiwear agent (E)", and “friction reducing agent (F)” are respectively referred to as “component (D)”, “component (E)”, and “ Also referred to as “component (F)”.
- the total content of (F), based on the total amount (100% by mass) of the grease composition is preferably 60% by mass or more, more preferably 70% by mass or more, still more preferably 80% by mass or more, and even more preferably It is 90% by mass or more. Also, it is usually 100% by mass or less, preferably less than 100% by mass, more preferably 99% by mass or less, and even more preferably 98% by mass or less.
- the inventors have found the following. As described above, in reinforced resins containing glass fibers, the glass fibers tend to be vertically oriented on the surface of the resin. , defects are likely to occur on the surface of the resin material.
- the melamine cyanurate which is a solid lubricant, enters into defects formed on the surface of the resin material, and the melamine cyanurate serves to close the defects. It was inferred that Moreover, even if a high load is applied to the resin material for a long period of time, it was inferred that the progression of defects in the resin material is suppressed. Therefore, the inventors have found that a grease composition containing melamine cyanurate can reduce the amount of wear.
- Requirement (I) In the grease composition of the present invention, particles containing the urea-based thickener (B) in the grease composition satisfy the following requirement (I).
- Requirement (I) above can also be said to be a parameter indicating the state of aggregation of the urea-based thickener (B) in the grease composition.
- the "particles containing the urea-based thickener (B)" to be measured by the laser diffraction/scattering method are particles formed by aggregation of the urea-based thickener (B) contained in the grease composition.
- the particle size specified in the above requirement (I) is the same as the grease prepared under the same conditions without the additive. Obtained by measuring the composition by a laser diffraction/scattering method.
- the additive is liquid at room temperature (25° C.), or when the additive dissolves in the base oil (A), the grease composition containing the additive may be measured. do not have.
- the urea-based thickener (B) is usually obtained by reacting an isocyanate compound with a monoamine. However, since the reaction rate is very fast, the urea-based thickener (B) aggregates and forms large particles ( Micellar particles, so-called "lumps") are likely to be excessively generated. As a result of intensive studies by the present inventors, it was found that when the particle diameter defined in the above requirement (I) exceeds 2.0 ⁇ m, the wear resistance of the grease composition is ensured when the worked penetration of the grease composition is increased. It turns out you can't.
- a grease composition excellent in This effect is achieved by miniaturizing the particle diameter defined in the above requirement (I) to 2.0 ⁇ m or less, so that the particles containing the urea-based thickener (B) enter the lubrication site (friction surface) of the worm gear or the like. It is presumed that this is achieved by improving the holding power of the grease composition in the lubricated portion by making the grease composition easier to remove and less likely to be removed from the lubricated portion. Further, by miniaturizing the particle diameter defined in the above requirement (I) to 2.0 ⁇ m or less, the holding power of the base oil (A) by the particles is improved.
- the particle size defined by the above requirement (I) is preferably 1.5 ⁇ m or less, more preferably 1.0 ⁇ m or less, still more preferably 0.9 ⁇ m or less, It is even more preferably 0.8 ⁇ m or less, still more preferably 0.7 ⁇ m or less, still more preferably 0.6 ⁇ m or less, still more preferably 0.5 ⁇ m or less, and even more preferably 0.4 ⁇ m or less. Moreover, it is usually 0.01 ⁇ m or more.
- the grease composition of one aspect of the present invention preferably further satisfies the following requirement (II).
- the specific surface area of the particles measured by a laser diffraction/scattering method is 0.5 ⁇ 10 5 cm 2 /cm 3 or more.
- the specific surface area defined in the above requirement (II) is a secondary index indicating the state of refinement of particles containing the urea-based thickener (B) in the grease composition and the presence of large particles (lumps). be.
- the particles containing the urea-based thickener (B) in the grease composition are finely divided, and the particles are large.
- the presence of (dama) is also suppressed. Therefore, it is possible to obtain a grease composition that is excellent in wear resistance and that easily exhibits the effects of the melamine cyanurate (C).
- the specific surface area defined by the requirement (II) is preferably 0.7 ⁇ 10 5 cm 2 /cm 3 or more, more preferably 0.8 ⁇ 10 5 cm 2 /cm 3 or more, and still more preferably 1.2 ⁇ 10 5 cm 2 /cm 3 or more, more preferably 1.5 ⁇ 10 5 cm 2 /cm 3 or more, still more preferably 1.8 ⁇ 10 5 cm 2 /cm 3 or more, still more preferably It is 2.0 ⁇ 10 5 cm 2 /cm 3 or more.
- the specific surface area is usually 1.0 ⁇ 10 6 cm 2 /cm 3 or less.
- the values defined in the requirements (I) and (II) above are values measured by the method described in the examples below. Moreover, the values specified in the requirements (I) and (II) can be adjusted mainly by the production conditions of the urea-based thickener (B). The details of each component contained in the grease composition of the present invention will be described below, focusing on specific means for adjusting the values specified in requirement (I) and requirement (II) above.
- the base oil (A) contained in the grease composition of the present invention may be one or more selected from mineral oils and synthetic oils.
- Mineral oils include, for example, distillates obtained by atmospheric distillation or vacuum distillation of paraffinic crude oils, intermediate crude oils, or naphthenic crude oils, and refined oils obtained by refining these distillates according to conventional methods. oil. Examples of the purification method include solvent dewaxing treatment, hydroisomerization treatment, hydrofinishing treatment, and clay treatment.
- Synthetic oils include, for example, hydrocarbon-based oils, aromatic oils, ester-based oils, ether-based oils, synthetic oils obtained by isomerizing wax (GTL wax) produced by the Fischer-Tropsch process, etc. is mentioned.
- hydrocarbon oils include normal paraffin, isoparaffin, polybutene, polyisobutylene, 1-decene oligomer, poly- ⁇ -olefin (PAO) such as 1-decene and ethylene co-oligomer, and hydrides thereof. .
- aromatic oils examples include alkylbenzenes such as monoalkylbenzene and dialkylbenzene; alkylnaphthalenes such as monoalkylnaphthalene, dialkylnaphthalene and polyalkylnaphthalene; and the like.
- ester oils include diester oils such as dibutyl sebacate, di-2-ethylhexyl sebacate, dioctyl adipate, diisodecyl adipate, ditridecyl adipate, ditridecyl glutarate, and methyl acetyl ricinoleate; Aromatic ester oils such as decyl trimellitate and tetraoctyl pyromellitate; polyol esters such as trimethylolpropane caprylate, trimethylolpropane beralgonate, pentaerythritol-2-ethylhexanoate, and pentaerythritol beralgonate complex ester oils such as oligoesters of polyhydric alcohols and mixed fatty acids of dibasic and monobasic acids; and the like.
- diester oils such as dibutyl sebacate, di-2-ethylhexyl sebacate, dio
- ether oils include polyglycols such as polyethylene glycol, polypropylene glycol, polyethylene glycol monoether, polypropylene glycol monoether; monoalkyltriphenyl ether, alkyldiphenyl ether, dialkyldiphenyl ether, pentaphenyl ether, tetraphenyl ether, monoalkyl phenyl ether oils such as tetraphenyl ether and dialkyltetraphenyl ether;
- the base oil (A) of the present embodiment preferably has a 40° C. kinematic viscosity of 10 mm 2 /s or more, more preferably 20 mm 2 /s or more, and even more preferably 30 mm 2 /s or more.
- the 40° C. kinematic viscosity of the base oil (A) is 10 mm 2 /s or more, the effect of the present invention can be exhibited more easily.
- the base oil (A) of the present embodiment preferably has a 40° C. kinematic viscosity of 420 mm 2 /s or less, more preferably 300 mm 2 /s or less, and even more preferably 200 mm 2 /s or less.
- the kinematic viscosity of the base oil (A) is 420 mm 2 /s or less, the effect of the present invention can be exhibited more easily.
- the upper and lower limits of these numerical ranges can be combined arbitrarily. Specifically, it is preferably 10 to 420 mm 2 /s, more preferably 20 to 300 mm 2 /s, still more preferably 30 to 200 mm 2 /s.
- the base oil (A) used in one aspect of the present invention may be a mixed base oil in which a high-viscosity base oil and a low-viscosity base oil are combined to adjust the kinematic viscosity to the above range.
- the viscosity index of the base oil (A) used in one aspect of the present invention is preferably 90 or higher, more preferably 110 or higher, and even more preferably 130 or higher.
- a kinematic viscosity and a viscosity index mean the value measured or calculated based on JISK2283:2000.
- the content of the base oil (A) is preferably 50% by mass or more, more preferably 55% by mass or more, based on the total amount (100% by mass) of the grease composition, More preferably 60% by mass or more, still more preferably 62% by mass or more, preferably 98.5% by mass or less, more preferably 97% by mass or less, still more preferably 95% by mass or less, still more preferably It is 93% by mass or less.
- the urea-based thickener (B) contained in the grease composition of the present invention may be any compound having a urea bond, but is preferably a diurea compound having two urea bonds, represented by the following general formula (b1). are more preferred.
- R 1 -NHCONH-R 3 -NHCONH-R 2 (b1) The urea-based thickener (B) used in one aspect of the present invention may consist of one type or may be a mixture of two or more types.
- R 1 and R 2 each independently represent a monovalent hydrocarbon group having 6 to 24 carbon atoms.
- R 1 and R 2 may be the same or different from each other.
- R 3 represents a divalent aromatic hydrocarbon group having 6 to 18 carbon atoms.
- the number of carbon atoms in the monovalent hydrocarbon group that can be selected as R 1 and R 2 in the general formula (b1) is 6 to 24, preferably 6 to 20, more preferably 6 to 18.
- Monovalent hydrocarbon groups that can be selected as R 1 and R 2 include saturated or unsaturated monovalent chain hydrocarbon groups, saturated or unsaturated monovalent alicyclic hydrocarbon groups, valent aromatic hydrocarbon groups.
- the content of the chain hydrocarbon group is X molar equivalents
- the content of the alicyclic hydrocarbon group is Y molar equivalents
- the aromatic hydrocarbon It is preferable that the following requirements (a) and (b) are satisfied when the group content is Z molar equivalent.
- alicyclic hydrocarbon group, the chain hydrocarbon group, and the aromatic hydrocarbon group are groups selected as R 1 and R 2 in the general formula (b1), X , Y, and Z are 2 molar equivalents with respect to 1 mol of the compound represented by the general formula (b1).
- the values of the above requirements (a) and (b) mean the average values for the total amount of the compound group represented by the general formula (b1) contained in the grease composition.
- the compound represented by the general formula (b1) that satisfies the above requirements (a) and (b) it is easy to obtain a grease composition having excellent low-temperature properties.
- the values of X, Y, and Z can be calculated from the molar equivalents of each amine used as raw materials.
- Examples of monovalent saturated chain hydrocarbon groups include linear or branched alkyl groups having 6 to 24 carbon atoms, specifically, hexyl group, heptyl group, octyl group, nonyl group, decyl group, undecyl group, dodecyl group, tridecyl group, tetradecyl group, pentadecyl group, hexadecyl group, heptadecyl group, octadecyl group, octadecenyl group, nonadecyl group, icosyl group and the like.
- Examples of the monovalent unsaturated chain hydrocarbon group include linear or branched alkenyl groups having 6 to 24 carbon atoms, specifically hexenyl group, heptenyl group, octenyl group, nonenyl group and decenyl group.
- the monovalent saturated chain hydrocarbon group and the monovalent unsaturated chain hydrocarbon group may be linear or branched.
- Examples of monovalent saturated alicyclic hydrocarbon groups include cycloalkyl groups such as cyclohexyl, cycloheptyl, cyclooctyl, and cyclononyl groups; methylcyclohexyl, dimethylcyclohexyl, ethylcyclohexyl, diethylcyclohexyl, Cycloalkyl groups substituted with alkyl groups having 1 to 6 carbon atoms such as propylcyclohexyl group, isopropylcyclohexyl group, 1-methyl-propylcyclohexyl group, butylcyclohexyl group, pentylcyclohexyl group, pentyl-methylcyclohexyl group and hexylcyclohexyl group (preferably a cyclohexyl group substituted with an alkyl group having 1 to 6 carbon atoms);
- Examples of monovalent unsaturated alicyclic hydrocarbon groups include cycloalkenyl groups such as cyclohexenyl, cycloheptenyl, and cyclooctenyl; methylcyclohexenyl, dimethylcyclohexenyl, ethylcyclohexenyl, and diethylcyclohexenyl; , a cycloalkenyl group substituted with an alkyl group having 1 to 6 carbon atoms such as a propylcyclohexenyl group (preferably a cyclohexenyl group substituted with an alkyl group having 1 to 6 carbon atoms);
- Examples of monovalent aromatic hydrocarbon groups include phenyl group, biphenyl group, terphenyl group, naphthyl group, diphenylmethyl group, diphenylethyl group, diphenylpropyl group, methylphenyl group, dimethylphenyl group, ethylphenyl group, A propylphenyl group and the like can be mentioned.
- the number of carbon atoms in the divalent aromatic hydrocarbon group that can be selected as R 3 in general formula (b1) is 6-18, preferably 6-15, more preferably 6-13.
- Examples of divalent aromatic hydrocarbon groups that can be selected as R 3 include phenylene group, diphenylmethylene group, diphenylethylene group, diphenylpropylene group, methylphenylene group, dimethylphenylene group and ethylphenylene group. Among these, a phenylene group, a diphenylmethylene group, a diphenylethylene group, or a diphenylpropylene group is preferable, and a diphenylmethylene group is more preferable.
- the content of component (B) is preferably 1.0 to 20.0% by mass, more preferably 1.0% by mass, based on the total amount (100% by mass) of the grease composition. .5 to 15.0% by mass, more preferably 2.0 to 13.0% by mass, even more preferably 2.5 to 10.0% by mass, still more preferably 4.0% to 9.0% by mass %. If the content of component (B) is 1.0% by mass or more, it is easy to adjust the worked penetration of the resulting grease composition to an appropriate range. On the other hand, when the content of the component (B) is 20.0% by mass or less, the obtained grease composition can be adjusted to be soft, so it is easy to improve lubricity and improve wear resistance.
- the urea-based thickener (B) can usually be obtained by reacting an isocyanate compound with a monoamine.
- the reaction is preferably carried out by adding a solution ⁇ obtained by dissolving a monoamine in the base oil (A) to the heated solution ⁇ obtained by dissolving the isocyanate compound in the base oil (A).
- the isocyanate compound is a group corresponding to the divalent aromatic hydrocarbon group represented by R 3 in the general formula (b1).
- the apparatus is used to produce a grease composition comprising component (A) and component (B).
- a container body having an introduction part into which the grease raw material is introduced and a discharge part for discharging the grease to the outside;
- a rotor having a rotation axis in the axial direction of the inner circumference of the container body and rotatably provided inside the container body, The rotor is (i) irregularities are alternately provided along the surface of the rotor, and the irregularities are inclined with respect to the rotation axis; (ii)
- the grease manufacturing apparatus includes a first concave-convex portion capable of feeding from the introduction portion toward the discharge portion.
- FIG. 1 is a schematic cross-sectional view of the grease manufacturing apparatus of [1] above, which can be used in one aspect of the present invention.
- the grease manufacturing apparatus 1 shown in FIG. 1 has a container body 2 into which a grease raw material is introduced, and a rotating shaft 12 on the central axis of the inner circumference of the container body 2. a child 3; The rotor 3 rotates at high speed around the rotating shaft 12 and applies a high shearing force to the grease raw material inside the container body 2 . Thereby, a grease containing the urea-based thickener (B) is produced. As shown in FIG.
- the container body 2 is divided into an introduction portion 4, a retention portion 5, a first inner peripheral surface 6, a second inner peripheral surface 7, and a discharge portion 8 in order from the upstream side. preferable.
- the container body 2 preferably has a truncated cone-shaped inner peripheral surface whose inner diameter gradually increases from the introduction portion 4 toward the discharge portion 8 .
- An introduction part 4 which is one end of the container body 2 includes a plurality of solution introduction pipes 4A and 4B for introducing grease raw materials from the outside of the container body 2 .
- the retaining portion 5 is a space that is arranged downstream of the introducing portion 4 and temporarily retains the grease raw material introduced from the introducing portion 4 . If the grease material stays in this retaining portion 5 for a long time, the grease adhering to the inner peripheral surface of the retaining portion 5 forms large lumps. preferably. More preferably, it is conveyed directly to the first inner peripheral surface 6 without going through the retention section 5 .
- the first inner peripheral surface 6 is arranged downstream adjacent to the retention portion 5
- the second inner peripheral surface 7 is arranged downstream adjacent to the first inner peripheral surface 6 .
- the peripheral surface 7 is a high shearing portion that applies a high shearing force to the grease raw material or grease.
- the discharge port 11 is formed in a direction perpendicular to or substantially perpendicular to the rotating shaft 12 .
- the discharge port 11 does not necessarily have to be perpendicular to the rotating shaft 12 and may be formed in a direction parallel or substantially parallel to the rotating shaft 12 .
- the rotor 3 is rotatable about the central axis of the truncated cone-shaped inner peripheral surface of the container body 2 as a rotation axis 12. As shown in FIG. , rotating counterclockwise.
- the rotor 3 has an outer peripheral surface that expands as the inner diameter of the truncated cone of the container body 2 expands. is maintained.
- the outer peripheral surface of the rotor 3 is provided with first uneven portions 13 of the rotor that are alternately provided with unevenness along the surface of the rotor 3 .
- the first uneven portion 13 of the rotor is inclined with respect to the rotation axis 12 of the rotor 3 in the direction from the introduction portion 4 to the discharge portion 8, and has the ability to feed from the introduction portion 4 to the discharge portion 8 direction. That is, the first concave-convex portion 13 of the rotor is inclined in the direction of pushing the solution downstream when the rotor 3 rotates in the direction shown in FIG.
- the step between the concave portion 13A and the convex portion 13B of the first uneven portion 13 of the rotor is preferably 0.3 to 30, more preferably 0.5 when the diameter of the concave portion 13A on the outer peripheral surface of the rotor 3 is 100. ⁇ 15, more preferably 2-7.
- the number of projections 13B of the first uneven portion 13 of the rotor in the circumferential direction is preferably 2 to 1000, more preferably 6 to 500, still more preferably 12 to 200.
- the ratio of the width of the convex portion 13B to the width of the concave portion 13A of the first concave-convex portion 13 of the rotor 3 in a cross section orthogonal to the rotating shaft 12 of the rotor 3 [width of convex portion/width of concave portion] is preferably 0. 0.01 to 100, more preferably 0.1 to 10, more preferably 0.5 to 2.
- the inclination angle of the first uneven portion 13 of the rotor with respect to the rotating shaft 12 is preferably 2 to 85 degrees, more preferably 3 to 45 degrees, and even more preferably 5 to 20 degrees.
- the first inner peripheral surface 6 of the container body 2 is provided with a first uneven portion 9 having a plurality of unevennesses formed along the inner peripheral surface.
- the unevenness of the first uneven portion 9 on the container body 2 side is inclined in the opposite direction to the first uneven portion 13 of the rotor. That is, the plurality of unevennesses of the first unevenness portion 9 on the container body 2 side are inclined in the direction of pushing out the solution downstream when the rotating shaft 12 of the rotor 3 rotates in the direction shown in FIG. is preferred.
- the first uneven portion 9 having a plurality of unevenness provided on the first inner peripheral surface 6 of the container body 2 further enhances the stirring capability and the discharge capability.
- the depth of the unevenness of the first uneven portion 9 on the container body 2 side is preferably 0.2 to 30, more preferably 0.5 to 15, and still more preferably 1 to 100 when the inner diameter (diameter) of the container is taken as 100. 5.
- the number of irregularities of the first irregularities 9 on the container body 2 side is preferably 2 to 1000, more preferably 6 to 500, and still more preferably 12 to 200.
- the ratio of the width of the concave portion of the unevenness of the first uneven portion 9 on the container body 2 side to the width of the convex portion between the grooves [width of concave portion/width of convex portion] is preferably 0.01 to 100, more preferably is 0.1 to 10, more preferably 0.5 to 2 or less.
- the inclination angle of the unevenness of the first uneven portion 9 on the container body 2 side with respect to the rotating shaft 12 is preferably 2 to 85 degrees, more preferably 3 to 45 degrees, and even more preferably 5 to 20 degrees.
- second uneven portions 14 of the rotor having unevenness alternately provided along the surface of the rotor 3 are provided on the outer peripheral surface of the downstream portion of the first uneven portions 13 of the rotor.
- the second concave-convex portion 14 of the rotor is inclined with respect to the rotating shaft 12 of the rotor 3 and has a feeding suppression capability of pushing back the solution upstream from the introduction portion 4 toward the discharge portion 8 .
- the step of the second uneven portion 14 of the rotor is preferably 0.3 to 30, more preferably 0.5 to 15, still more preferably 2 to 7, when the diameter of the recess on the outer peripheral surface of the rotor 3 is taken as 100. is.
- the number of protrusions of the second uneven portion 14 of the rotor in the circumferential direction is preferably 2 to 1000, more preferably 6 to 500, still more preferably 12 to 200.
- the ratio of the width of the protrusion to the width of the recess of the second uneven portion 14 of the rotor in the cross section orthogonal to the rotation axis of the rotor 3 [width of the protrusion/width of the recess] is preferably 0.01 to 0.01. 100, more preferably 0.1 to 10, more preferably 0.5 to 2.
- the inclination angle of the second concave-convex portion 14 of the rotor with respect to the rotating shaft 12 is preferably 2 to 85 degrees, more preferably 3 to 45 degrees, and even more preferably 5 to 20 degrees.
- the second inner peripheral surface 7 of the container body 2 is provided with a second uneven portion 10 having a plurality of unevenness formed adjacent to the downstream portion of the unevenness of the first uneven portion 9 on the container body 2 side. is preferred.
- a plurality of unevennesses are formed on the inner peripheral surface of the container body 2, and it is preferable that each unevenness is inclined in a direction opposite to the inclination direction of the second unevenness portion 14 of the rotor. That is, the plurality of unevennesses of the second unevenness portion 10 on the container body 2 side are inclined in the direction of pushing back the solution upstream when the rotating shaft 12 of the rotor 3 rotates in the direction shown in FIG. is preferred.
- the unevenness of the second uneven portion 10 provided on the second inner peripheral surface 7 of the container body 2 further enhances the stirring ability.
- the second inner peripheral surface 7 of the container body can function as a shearing portion that applies a high shearing force to the grease raw material or grease.
- the depth of the recess of the second uneven portion 10 on the container body 2 side is preferably 0.2 to 30, more preferably 0.5 to 15, more preferably 0.5 to 15, when the inner diameter (diameter) of the container body 2 is 100. is 1-5.
- the number of concave portions of the second uneven portion 10 on the container body 2 side is preferably 2 to 1000, more preferably 6 to 500, still more preferably 12 to 200.
- the ratio of the width of the convex portion to the width of the concave portion of the second concave-convex portion 10 on the container body 2 side in the cross section orthogonal to the rotation axis 12 of the rotor 3 [width of the convex portion/width of the concave portion] is preferably is 0.01 to 100, more preferably 0.1 to 10, still more preferably 0.5 to 2 or less.
- the inclination angle of the second concave-convex portion 10 on the container body 2 side with respect to the rotating shaft 12 is preferably 2 to 85 degrees, more preferably 3 to 45 degrees, and even more preferably 5 to 20 degrees.
- the ratio of the length of the first uneven portion 9 on the container body 2 side to the length of the second uneven portion 10 on the container body 2 side [length of the first uneven portion/length of the second uneven portion] is preferably 2/1 to 20/1.
- FIG. 2 is a cross-sectional view of the first concave-convex portion 9 on the container body 2 side of the grease manufacturing apparatus 1 in the direction perpendicular to the rotating shaft 12 .
- a plurality of scrapers 15 are provided on the first concave-convex portion 13 of the rotor shown in FIG.
- the second uneven portion 14 is also provided with a plurality of scrapers with the tips of the protrusions protruding toward the inner peripheral surface of the container body 2 in the same manner as the first uneven portion 13 .
- the scraper 15 scrapes off the grease adhering to the inner peripheral surfaces of the first uneven portion 9 on the container body 2 side and the second uneven portion 10 on the container body 2 side.
- the amount of protrusion of the tip of the scraper 15 with respect to the amount of protrusion of the protrusion 13B of the first uneven portion 13 of the rotor is the ratio of the radius (R2) of the tip of the scraper 15 to the radius (R1) of the tip of the protrusion 13B. [R2/R1] is preferably greater than 1.005 and less than 2.0.
- the number of scrapers 15 is preferably 2-500, more preferably 2-50, still more preferably 2-10. Although the grease manufacturing apparatus 1 shown in FIG. 2 is provided with the scraper 15, the scraper 15 may be omitted, or the scraper 15 may be intermittently provided.
- the solution ⁇ and the solution ⁇ which are the grease raw materials described above, are introduced into the solution introduction pipe 4A of the introduction portion 4 of the container main body 2. , 4B, and rotating the rotor 3 at high speed, a grease base material containing the urea-based thickener (B) can be produced. Even if the sulfur-phosphorus extreme pressure agent (C) and other additives (D) are added to the grease base material thus obtained, the requirement (I) and the requirement ( The urea-based thickener (B) in the grease composition can be finely divided so as to satisfy II).
- the shear rate applied to the grease raw material is preferably 10 2 s -1 or more, more preferably 10 3 s -1 or more, still more preferably 10 4 s -1 or more, and , usually less than or equal to 10 7 s ⁇ 1 .
- the ratio (Max/Min) of the maximum shear rate (Max) to the minimum shear rate (Min) in the shear when the rotor 3 rotates at high speed is preferably 100 or less, more preferably 50 or less, and still more preferably 10 or less.
- the shear rate for the mixed liquid is as uniform as possible, the urea-based thickener (B) and its precursor in the grease composition can be easily refined, resulting in a more uniform grease structure.
- ⁇ Maximum shear rate (Max) (Linear velocity of tip of convex portion 13B of first concave-convex portion 13 of rotor)/(tip of convex portion 13B of first concave-convex portion 13 of rotor and first inner circumference of container body 2) Gap A1) between the protrusions of the first uneven portion 9 of the surface 6)
- Minimum shear rate (Min) (Linear velocity of recess 13A of first uneven portion 13 of rotor) / (Recess 13A of first uneven portion 13 of rotor and first inner peripheral surface 6 of container body 2 Gap A2 of the concave portion of the concave-convex portion 9) Note that the gap A1 and the gap A2 are as shown in FIG.
- the grease manufacturing apparatus 1 Since the grease manufacturing apparatus 1 is provided with the scraper 15, the grease adhering to the inner peripheral surface of the container body 2 can be scraped off, so that the generation of lumps during kneading can be prevented.
- Grease containing finely divided thickener (B) can be continuously produced in a short period of time.
- the scraper 15 scrapes off the adhered grease, it is possible to prevent the accumulated grease from acting as a resistance to the rotation of the rotor 3, so that the rotational torque of the rotor 3 can be reduced. The power consumption of the source can be reduced, and the continuous production of grease can be efficiently performed.
- the centrifugal force has the effect of discharging the grease or the grease raw material in the downstream direction.
- the rotation torque of the element 3 can be reduced, and continuous production of grease can be performed.
- a first uneven portion 13 of the rotor is provided on the outer peripheral surface of the rotor 3 .
- the urea-based thickener (B) in the grease composition is finely divided so that a high shearing force can be imparted and the above requirement (I) and further the above requirement (II) are satisfied even after the additives are blended. can be
- the first uneven portion 9 is formed on the first inner peripheral surface 6 of the container body 2 and is inclined in the opposite direction to the first uneven portion 13 of the rotor, the effect of the first uneven portion 13 of the rotor is obtained.
- the urea-based thickener (B) in the grease composition can be finely divided. Further, by providing the second uneven portion 10 on the second inner peripheral surface 7 of the container body 2 and providing the second uneven portion 14 of the rotor on the outer peripheral surface of the rotor 3, the grease raw material is more than necessary.
- the above requirement (I) and further the above The urea-based thickener (B) can be finely divided so as to satisfy the requirement (II).
- the grease composition of the present invention contains melamine cyanurate (C) along with component (A) and component (B).
- melamine cyanurate (C) is an organic salt composed of melamine and cyanuric acid and has a graphite structure.
- the particle size of melamine cyanurate (C) is preferably 5.0 ⁇ m or less, more preferably 4.0 ⁇ m or less, even more preferably 3.0 ⁇ m or less, even more preferably 2.5 ⁇ m or less, and still more preferably 2.5 ⁇ m or less. 0 ⁇ m or less. Moreover, although there is no particular lower limit for the particle size of melamine cyanurate (C), it is usually 0.005 ⁇ m or more. The smaller the particle size of the melamine cyanurate (C), the easier it is for the melamine cyanurate (C), which is a solid lubricant, to enter into defects formed on the surface of the resin material with which the grease composition comes into contact.
- the particle size of melamine cyanurate (C) means the average particle size measured by the following method.
- the particle size of the melamine cyanurate (C) alone is maintained at the same particle size even in the grease composition. (That is, the particle size of the melamine cyanurate (C) contained in the grease composition is approximately the same as the particle size of the melamine cyanurate (C) itself.)
- particle size of melamine cyanurate (C) The particle size (average particle size) of melamine cyanurate (C) is measured at 25°C by a dynamic light scattering method (photon correlation method), and is calculated from the dispersed particle size distribution analyzed by the CONTIN method, based on scattering intensity. 50% particle size (volume median particle size, D 50 ) of can be used.
- the content of melamine cyanurate (C) is preferably 0.2% by mass or more, based on the total amount (100% by mass) of the grease composition, from the viewpoint of wear resistance. It is preferably 0.3% by mass or more, more preferably 0.5% by mass or more.
- the content of melamine cyanurate (C) is preferably 10.0% by mass based on the total amount (100% by mass) of the grease composition from the viewpoint of reducing the amount of wear. Below, more preferably 5.0% by mass or less, still more preferably 3.0% by mass or less, and even more preferably 2.0% by mass or less.
- the content ratio [(B)/(C)] of the urea-based thickener (B) and the melamine cyanurate (C) is preferably 1.0 to 18.0 in mass ratio from the viewpoint of abrasion resistance. 0, more preferably 3.0 to 15.0, still more preferably 5.0 to 12.0.
- the grease composition of the present invention preferably contains component (A), component (B) and component (C) together with oiliness agent (D).
- oiliness agent (D) By including the oily agent (D) in the grease composition of one embodiment of the present invention, the grease composition can have a further reduced coefficient of friction.
- oily agent (D) for example, at least one selected from sarcosine derivatives (D1), amine compounds (D2), polyamide compounds (D3), and ether compounds (D4) is preferable. These may be used alone or in combination of two or more.
- the sarcosine derivative (D1) is an ⁇ -amino acid in which a secondary or tertiary amino group having a methyl group is bonded to the carbon atom to which the carboxyl group is bonded, and is N-methylglycine or N-methylglycine. Any aliphatic amino acid having a skeleton may be used.
- Sarcosine derivatives (D1) include, for example, N-oleoyl sarcosine, N-methyl-oleyl sarcosine, N-methyl-stearyl sarcosine, N-octyl-oleyl sarcosine, N-lauryl-oleyl sarcosine, N-lauryl-stearyl sarcosine etc. Among these, N-oleoyl sarcosine is preferred. These sarcosine derivatives (D1) may be used alone or in combination of two or more.
- the sarcosine derivative (D1) used in one aspect of the present invention is preferably a compound represented by the following general formula (d-1).
- R is an alkyl group having 1 to 30 carbon atoms or an alkenyl group having 1 to 30 carbon atoms.
- the number of carbon atoms in the alkyl group and alkenyl group is 1-30, preferably 6-27, more preferably 10-24, still more preferably 12-20.
- the alkyl group may be a straight-chain alkyl group or a branched-chain alkyl group.
- the alkenyl group may be a straight-chain alkenyl group or a branched-chain alkenyl group.
- the amine compound (D2) may be any compound having an amino group, and examples thereof include monoamines, diamines and triamines.
- the amine compound (D2) may be used alone or in combination of two or more.
- the amine compound (D2) used in one embodiment of the present invention is preferably a monoamine, and more preferably an aliphatic monoamine.
- Aliphatic monoamines used in one embodiment of the present invention include primary aliphatic monoamines represented by the following general formula (d2-i) and secondary aliphatic monoamines represented by the following general formula (d2-ii). , and tertiary aliphatic monoamines represented by the following general formula (d2-iii).
- R 11 to R 13 are each independently an alkyl group or an alkenyl group, preferably an alkenyl group.
- the number of carbon atoms in the alkyl group and alkenyl group that can be selected as R 11 to R 13 is preferably 8-22, more preferably 10-20, still more preferably 12-18.
- the alkyl group may be a straight-chain alkyl group or a branched-chain alkyl group.
- the alkenyl group may be a straight-chain alkenyl group or a branched-chain alkenyl group.
- Examples of the primary aliphatic monoamine represented by the general formula (d2-i) include octylamine, laurylamine, stearylamine and oleylamine. Among these, oleylamine is preferred.
- Examples of the secondary aliphatic monoamine represented by the general formula (d2-ii) include dioctylamine, dilaurylamine, distearylamine, and dioleylamine.
- Examples of the tertiary aliphatic monoamine represented by the general formula (d2-iii) include trioctylamine, trilaurylamine, tristearylamine and trioleylamine.
- the amine compound (D2) used in one aspect of the present invention is preferably a primary aliphatic monoamine represented by the general formula (d2-i), and R 1 in the general formula (i) has 8 carbon atoms. More preferred are primary aliphatic monoamines that are alkenyl groups of -22.
- the polyamide compound (D3) may be a compound having a plurality of amide bonds, but is preferably an acid amide obtained by reacting a carboxylic acid with an amine, and a fatty acid obtained by reacting a fatty acid with an amine. Amide is more preferred.
- the polyamide compound (D3) may be used alone or in combination of two or more.
- Carboxylic acids include linear or branched saturated or unsaturated monocarboxylic acids, specifically heptanoic acid, octanoic acid, nonanoic acid, decanoic acid, undecanoic acid, dodecanoic acid, tridecanoic acid, tetradecane.
- Saturated fatty acids such as acid, pentadecanoic acid, hexadecanoic acid, heptadecanoic acid, octadecanoic acid, isostearic acid, nonadecanic acid, icosanoic acid, henicosanoic acid, docosanoic acid, tricosanoic acid, tetracosanoic acid; heptenoic acid, octenoic acid, nonenoic acid, decenoic acid , undecenoic acid, dodecenoic acid, tridecenoic acid, tetradecenoic acid, pentadecenoic acid, hexadecenoic acid, heptadecenoic acid, octadecenoic acid (including oleic acid), nonadecenoic acid, icosenoic acid, henicosenoic acid, docosenoic acid, tricosenoic acid
- the number of carbon atoms in the carboxylic acid is preferably 7-30, more preferably 8-24, still more preferably 10-22.
- amines examples include alkylamines, alkanolamines, polyalkylenepolyamines, and the like. Among these, polyalkylenepolyamines are preferred.
- alkylamines include primary aliphatic alkylamines such as monomethylamine, monoethylamine, monopropylamine, monobutylamine, monopentylamine, monohexylamine, monoheptylamine; dimethylamine, methylethylamine, diethylamine, methylpropylamine; secondary aliphatic alkylamines such as amine, ethylpropylamine, dipropylamine, methylbutylamine, ethylbutylamine, propylbutylamine, dibutylamine, dipentylamine, dihexylamine and diheptylamine;
- the alkyl group which the alkylamine has may be either linear or branched.
- alkanolamine examples include monomethanolamine, monoethanolamine, monopropanolamine, monobutanolamine, monopentanolamine, monohexanolamine, dimethanolamine, methanolethanolamine, diethanolamine, methanolpropanolamine, ethanolpropanolamine, dipropanolamine, methanolbutanolamine, ethanolbutanolamine, propanolbutanolamine, dibutanolamine, dipentanolamine, dihexanolamine and the like.
- the alkanol group possessed by the alkanolamine may be either linear or branched.
- polyalkylenepolyamines examples include diethylenetriamine, triethylenetetramine, tetraethylenepentamine, pentaethylenehexamine, hexaethyleneheptamine, tetrapropylenepentamine, and hexabutyleneheptamine. Among these, tetraethylenepentamine is preferred.
- the ether compound (D4) may be any compound having an ether bond, and examples thereof include aliphatic ethers.
- Aliphatic ethers include, for example, monoalkyl glyceryl ethers. The number of carbon atoms in the alkyl group contained in the monoalkyl glyceryl ether is preferably 1-20, more preferably 4-10.
- the alkyl group contained in the monoalkyl glyceryl ether may be linear or branched.
- alkyl groups contained in monoalkyl glyceryl ethers include methyl group, ethyl group, propyl group, n-butyl group, isobutyl group, n-pentyl group, 2-methylbutyl group, isopentyl group, n-hexyl group and isohexyl. group, n-heptyl group, n-octyl group, 2-ethylhexyl group, n-decyl group, isodecyl group and the like.
- Monoalkyl glyceryl ethers include, for example, 1-methyl glyceryl ether, 2-methyl glyceryl ether, 1-ethyl glyceryl ether, 1-pentyl glyceryl ether, 2-pentyl glyceryl ether, 1-octyl glyceryl ether and the like.
- the content of the oily agent (D) is preferably 0.1 to 5.0 mass based on the total amount (100 mass%) of the grease composition from the viewpoint of reducing the coefficient of friction. %, more preferably 0.5 to 3.0 mass %, still more preferably 0.8 to 1.5 mass %.
- the content ratio [(C)/(D)] of the melamine cyanurate (C) and the oily agent (D) is preferably 0.3 to 3.0 in mass ratio from the viewpoint of wear resistance and friction properties. 0, more preferably 0.4 to 2.0, still more preferably 0.6 to 1.5.
- the grease composition of the present invention preferably contains an antiwear agent (E) along with components (A), (B), and (C).
- the grease composition can have further improved wear resistance.
- Examples of the antiwear agent (E) include at least one selected from ester compounds (E1) and bisamide compounds (E2). These may be used alone or in combination of two or more.
- the ester compound (E1) is not particularly limited, and examples thereof include fatty acid esters.
- the fatty acid that constitutes the fatty acid ester may be a saturated fatty acid or an unsaturated fatty acid.
- the number of carbon atoms in the fatty acid constituting the fatty acid ester is preferably 10-24, more preferably 12-22, still more preferably 16-20.
- Fatty acid esters are not particularly limited, and examples include methyl stearate, methyl laurate, methyl myristate, methyl palmitate, methyl oleate, methyl erucate, methyl behenate, butyl laurate, butyl stearate, and myristic acid. isopropyl, isopropyl palmitate, octyl palmitate and the like. These may be used alone or in combination of two or more. Among these, methyl stearate is preferred.
- the bisamide compound (E2) is not particularly limited, and examples thereof include fatty acid bisamides.
- Fatty acid bisamides are not particularly limited, and examples include ethylenebisstearic acid amide, methylenebiscaprylic acid amide, methylenebiscapric acid amide, methylenebislauric acid amide, methylenebismyristate amide, methylenebispalmitic acid amide, methylenebis stearamide, methylenebisisostearate, methylenebisbehenamide, methylenebisoleamide, methylenebiserucamide, ethylenebiscaprylate, ethylenebiscaprate, ethylenebislaurate, ethylenebismyristate amide, ethylene bispalmitamide, ethylene bis isostearamide, ethylene bis behenamide, ethylene bis oleic amide, ethylene bis erucamide, butylene bis stearamide, butylene bis behen amide, butylene bis oleic amide, butylenebis-erucamide,
- the content ratio [(C)/(E)] of the melamine cyanurate (C) and the anti-wear agent (E) is preferably 0.1 to 2.0 in terms of mass ratio from the viewpoint of wear resistance. More preferably 0.2 to 1.0, still more preferably 0.3 to 0.5.
- the grease composition of the present invention preferably contains a friction modifier (F) along with components (A), (B) and (C).
- a friction modifier (F) in the grease composition of one aspect of the present invention, the friction properties of the grease composition can be further improved.
- Examples of friction reducing agents (F) include polymer compounds (F1).
- Examples of the polymer compound (F1) include non-dispersed poly(meth)acrylates, dispersed poly(meth)acrylates, star polymers, olefinic copolymers, dispersed olefinic copolymers, polyalkylstyrenes, Examples include polymers such as styrene copolymers.
- Examples of olefinic copolymers include ethylene-propylene copolymers and ethylene-butylene copolymers.
- Examples of styrene copolymers include styrene-diene copolymers and styrene-isoprene copolymers. These may be used individually by 1 type, and may be used in combination of 2 or more type. Moreover, these may be either random copolymers or block copolymers. Among these, ethylene-propylene copolymers and ethylene-butylene copolymers are preferred.
- the mass average molecular weight (Mw) of the polymer compound (F1) is preferably 50,000 or more, more preferably 100,000 or more, from the viewpoint of abrasion resistance. Moreover, the mass average molecular weight (Mw) of the polymer compound (F1) is preferably 1,000,000 or less from the viewpoint of availability of the polymer compound.
- the number average molecular weight (Mn) of the polymer compound (F1) is preferably 30,000 or more, more preferably 50,000 or more, still more preferably 80,000 or more, from the viewpoint of abrasion resistance. Moreover, the number average molecular weight (Mn) of the polymer compound (F1) is preferably 500,000 or less from the viewpoint of availability of the polymer compound.
- the molecular weight distribution (Mw/Mn) of the polymer compound (F1) is preferably 2.20 or less, more preferably 2.00 or less, even more preferably 1.90 or less, and even more preferably is 1.85 or less. Moreover, the molecular weight distribution (Mw/Mn) of the polymer compound (F1) is preferably 1.10 or more from the viewpoint of availability of the polymer compound.
- the content of the polymer compound (F1) in terms of resin is preferably 0.1 to 35.0% by mass, based on the total amount (100% by mass) of the grease composition, from the viewpoint of reducing the coefficient of friction. It is preferably 1.0 to 30.0% by mass, more preferably 5.0 to 27.0% by mass, still more preferably 8.0 to 26.0% by mass.
- the grease composition of one embodiment of the present invention includes component (B), component (C), component (D), component (E), component (B), component (C), component (D), component (E), which are blended in general grease within a range that does not impair the effects of the present invention. And it may contain an additive (G) other than the component (F).
- the additive (G) include antioxidants, rust inhibitors, extreme pressure agents, thickeners, solid lubricants, detergent dispersants, corrosion inhibitors, metal deactivators and the like. Additives (G) may be used singly or in combination of two or more.
- Antioxidants include, for example, phenolic antioxidants.
- Rust inhibitors include, for example, carboxylic acid-based rust inhibitors such as alkenyl succinic acid polyhydric alcohol esters, zinc stearate, thiadiazole and its derivatives, benzotriazole and its derivatives, and the like.
- extreme pressure agents include zinc dialkyldithiophosphate, molybdenum dialkyldithiophosphate, ashless dithiocarbamate, zinc dithiocarbamate, molybdenum dithiocarbamate and other thiocarbamic acids; sulfurized oils and fats, sulfurized olefins, polysulfides, thiophosphoric acids, thioterpenes , sulfur compounds such as dialkylthio dipyropionates; phosphoric esters such as tricresyl phosphate; phosphites such as triphenyl phosphite; Examples of solid lubricants include polyimide, PTFE, graphite, metal oxides, boron nitride, and molybdenum disulfide.
- detergent-dispersants include ashless dispersants such as succinimide and boron-based succinimide.
- corrosion inhibitors include benzotriazole-based compounds and thiazole-based compounds.
- metal deactivators include benzotriazole compounds.
- the content of these additives (G) is appropriately set according to the type of additive, but each independently represents the total amount of the grease composition (100% by mass ), it is usually 0.01 to 20% by mass, preferably 0.01 to 15% by mass, more preferably 0.01 to 10% by mass, still more preferably 0.01 to 7% by mass.
- the worked penetration at 25° C. of the grease composition of one embodiment of the present invention is preferably 220 to 430, more preferably 240 to 360, still more preferably 250 to 350, from the viewpoint of excellent wear resistance. , and more preferably 260-330.
- the worked penetration of the grease composition means a value measured at 25°C in accordance with JIS K2220:2013 (Clause 7).
- the wear resistance of the grease composition of one embodiment of the present invention can be evaluated by measuring the rate of decrease in the amount of wear according to the method described later in Examples.
- the grease composition of the present invention comprises a base oil (A), a grease (base grease) containing a urea-based thickener (B), melamine cyanurate (C), and optionally an oily agent (D), It can be produced by mixing an antiwear agent (E), a friction modifier (F), and an additive (G).
- a base oil (A) and a grease (base grease) containing a urea-based thickener (B) are mixed, then melamine cyanurate (C), if necessary, an oily agent (D), an anti-wear agent ( E), friction modifier (F), and additive (G) are added, mixed, and homogenized.
- the grease composition of the present invention has excellent wear resistance.
- the wear resistance is excellent. Therefore, the grease composition of one aspect of the present invention can be suitably used for lubricating sliding parts of various devices, and is particularly suitable for devices having sliding parts made of a metal material and a resin material. It is preferably used for lubrication.
- the metal material is preferably carbon steel, various steels such as stainless steel, various alloys such as aluminum alloys, and copper. Note that the metal material may be replaced with a material having high strength (for example, a ceramic material or the like).
- the resin material may be either natural resin or synthetic resin, but general-purpose synthetic plastics (polyethylene, polystyrene, polypropylene, polyvinyl chloride, etc.) and engineering plastics are preferred. Plastic is more preferred. Examples of engineering plastics include synthetic resins such as polyamide resins, polyacetal resins, polycarbonate resins, polysulfone resins, polyphenylene sulfide resins, polyamideimide resins, polyether ether ketone resins, phenol resins, polyester resins, and epoxy resins. Moreover, as the resin material, a fiber-reinforced resin material is preferable. Examples of fiber-reinforced resin materials include glass fiber-reinforced resin materials.
- Apparatus fields in which the grease composition of the present invention can be preferably used include the fields of automobiles, office equipment, machine tools, wind turbines, construction, agricultural machinery, and industrial robots.
- Examples of lubricating parts in devices in the field of automobiles in which the grease composition of the present invention can be suitably used include radiator fan motors, fan couplings, alternators, idler pulleys, hub units, water pumps, and power windows.
- wipers electric power steering, drive electric motor flywheels, ball joints, wheel bearings, splines, constant velocity joints, etc.; door locks, door hinges, clutch boosters, etc. part, sliding part; and the like.
- hub units, electric power steering, drive electric motor flywheels, ball joints, wheel bearings, splines, constant velocity joints, clutch boosters, servo motors, blade bearings, generator bearings, etc. be done.
- Examples of lubricating parts in devices in the field of office equipment to which the grease composition of the present invention can be preferably applied include fixing rolls in devices such as printers, bearings and gears in devices such as polygon motors, and the like. mentioned.
- Examples of lubricating parts in devices in the field of machine tools to which the grease composition of the present invention can be preferably applied include bearing parts in reduction gears of spindles, servomotors, working robots and the like.
- Lubricating parts in devices in the field of wind turbines, in which the grease composition of the present invention can be suitably used include, for example, bearing parts such as blade bearings and generators.
- Examples of lubricating parts in equipment in the field of construction or agricultural machinery to which the grease composition of the present invention can be suitably applied include bearing parts such as ball joints and spline parts, gear parts and sliding parts. mentioned.
- One aspect of a device to which the grease composition of the present invention can be applied is preferably a speed reducer (worm gear) for electric power steering, in which the sliding mechanism has a metal worm and a resin worm wheel. .
- a speed reducer worm gear
- the sliding mechanism has a metal worm and a resin worm wheel.
- a sliding mechanism lubrication method applicable to the grease composition of the present invention is a method of lubricating a sliding mechanism in which a metal material and a resin material slide with the grease composition of the present invention described above.
- the amount of wear in the lubricated portion can be reduced.
- This effect is excellent in wear resistance when the sliding mechanism is a speed reducer (worm gear) of an electric power steering having a metal worm and a resin worm wheel.
- the grease composition according to [1] above, wherein the particles containing the urea-based thickener (B) in the grease composition further satisfy the following requirement (II).
- Requirement (II) The specific surface area of the particles measured by a laser diffraction/scattering method is 0.5 ⁇ 10 5 cm 2 /cm 3 or more.
- the content ratio [(C)/(D)] of the content of the melamine cyanurate (C) to the oily agent (D) is 0.3 to 3.0 in mass ratio.
- the grease composition according to [5] further comprising one or more antiwear agents (E) selected from the group consisting of an ester compound (E1) and a bisamide compound (E2) [1] The grease composition according to any one of [6].
- the content ratio [(C)/(E)] of the content of the melamine cyanurate (C) and the anti-wear agent (E) is 0.1 to 2.0 in mass ratio.
- the content ratio [(B)/(C)] of the urea-based thickener (B) and the melamine cyanurate (C) is 1.0 to 18.0 in mass ratio.
- a lubrication method wherein a sliding mechanism in which a metal material and a resin material slide is lubricated with the grease composition according to any one of the above [1] to [12].
- the resin material is a glass fiber reinforced resin material.
- Mass average molecular weight (Mw), number average molecular weight (Mn), and molecular weight distribution (Mw/Mn) of polymer compound (F1) Using a gel permeation chromatograph (manufactured by Agilent, device name "1260 type HPLC"), the values measured in terms of standard polystyrene were used according to the following measurement conditions. -Measurement condition- - Column: Two “Shodex LF404" are sequentially connected. ⁇ Column temperature: 35°C ⁇ Developing solvent: chloroform ⁇ Flow rate: 0.3 mL/min (4) Worked Penetration of Grease Composition Measured at 25° C. in accordance with JIS K2220:2013 (Clause 7).
- Base oil (A), melamine cyanurate (C), oiliness agent (D), antiwear agent (E) used as raw materials for preparing grease compositions in Examples 1 to 4 and Comparative Examples 1 and 2 , friction reducer (F), and additive (G) were as follows.
- the content in Table 1 is the content in terms of resin content.
- ⁇ Oil agent (D)> Sarcosine derivative (D1): N-oleylsarcosine amine compound (D2): oleylamine polyamide compound (D3): reaction product of isostearic acid and tetraethylenepentamine
- Example 1 Synthesis of urea grease Diphenylmethane-4,4'-diisocyanate (MDI ) was added to prepare a solution ⁇ .
- MDI urea grease Diphenylmethane-4,4'-diisocyanate
- the solution ⁇ and the solution ⁇ were continuously introduced into the container main body 2 while the rotor 3 was being rotated. Thereafter, this mixture was heated to 160° C. with a stirrer, stirred for 1 hour, and homogenized by roll mill treatment to synthesize urea grease (b1).
- the rotation speed of the rotor 3 of the grease manufacturing apparatus 1 used was set to 8,000 rpm. Further, the maximum shear rate (Max) at this time is 10,500 s -1 , and the ratio of the maximum shear rate (Max) and the minimum shear rate (Min) [Max/Min] is 3.5, and the stirring is performed. rice field.
- R 1 and R 2 in the general formula (b1) are cyclohexyl groups or octadecyl groups (stearyl groups), and R 3 is It corresponds to a compound that is a diphenylmethylene group. Moreover, the molar ratio (cyclohexylamine/octadecylamine) of cyclohexylamine and octadecylamine used as raw materials is 40/60.
- Example 4 A grease composition of Example 4 was obtained in the same manner as in Example 1, except that the content of each component in the synthesis of (1) urea grease of Example 1 was changed as follows. 30.00 parts by mass of base oil (A1) heated to 70° C. 4.10 parts by mass of diphenylmethane-4,4′-diisocyanate (MDI) 29. Separately prepared base oil (A1) heated to 70° C.
- the urea-based thickener (B2) contained in the obtained urea grease is are a cyclohexyl group or an octadecyl group (stearyl group) , and R 3 is a diphenylmethylene group.
- the molar ratio (cyclohexylamine/octadecylamine) of cyclohexylamine and octadecylamine used as starting materials is 80/20.
- the sample to be measured was degassed under vacuum and then filled in a 1 mL syringe, 0.10 to 0.15 mL of the sample was extruded from the syringe, and the extruded sample was placed on the surface of the plate-shaped cell of the paste cell fixing jig. .
- another plate-shaped cell was stacked on the sample to obtain a measurement cell in which the sample was sandwiched between two cells.
- a laser diffraction particle size analyzer manufactured by Horiba, Ltd., product name: LA-920
- the "arithmetic mean particle size on the basis of area” means the value obtained by arithmetically averaging the particle size distribution on the basis of area.
- the area-based particle size distribution indicates the frequency distribution of the particle size of the entire particle to be measured, based on the area calculated from the particle size (specifically, the cross-sectional area of the particle having the particle size). It is a thing.
- the value obtained by arithmetically averaging the particle size distribution on the basis of area can be calculated by the following formula (1).
- J means the division number of the particle size.
- q(J) means a frequency distribution value (unit: %).
- X(J) is the representative diameter (unit: ⁇ m) of the J-th particle diameter range.
- Table 1 shows the evaluation results.
- the grease compositions of Examples 1 to 4 had a wear amount reduction rate (wear amount reduction rate) of 50% or more from the standard value wear amount, indicating excellent wear resistance. I found out.
- the grease composition of Comparative Example 2 which does not contain melamine cyanurate (C)
- the ratio of the amount of wear that is reduced from the amount of wear of the reference value is less than 50%, and the amount of wear is not sufficiently reduced.
- Comparative Example 3 A grease composition of Comparative Example 3 was prepared by removing the phenolic antioxidant from the composition of Comparative Example 1.
- Example 5 To 99 parts by mass of the grease composition of Comparative Example 3, 1 part by mass of melamine cyanurate (C1) was added and mixed. Then, it was homogenized with three rolls to obtain a grease composition of Example 5.
- melamine cyanurate (C1) To 99 parts by mass of the grease composition of Comparative Example 3, 1 part by mass of melamine cyanurate (C1) was added and mixed. Then, it was homogenized with three rolls to obtain a grease composition of Example 5.
- Example 6 Grease compositions of Examples 6 and 7 were prepared in the same manner as in Example 5, except that melamine cyanurate (C1) was changed to melamine cyanurate (C2) and (C3), respectively.
- Table 2 shows the evaluation results.
- the ratio of the amount of wear that decreased from the amount of wear of the reference value was 20% or more and less than 30%.
- the grease composition of Example 7 had a reduction rate of wear loss from the standard wear loss (reduction rate of wear loss) of 30% or more. From these results, it was found that the smaller the average particle size of the melamine cyanurate (C) in the grease composition, the better the wear resistance.
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Abstract
Description
近年、軽量化や静粛性等の観点から、摺動部分の部材として樹脂材の使用が検討されている。
例えば、自動車の電動パワーステアリング(Electric Power Steering、EPS)のウォームギアにおいて、ウォームの材質は、強度の観点から金属が一般的である。一方、ウォームホイールの材質は、自動車部品の軽量化、ウォームとの接触による歯打ち音や振動音等の不快な音の発生の防止(静粛性)、ウォームとの焼き付き防止等の観点から、樹脂が多く用いられている。そして、使用される樹脂としては、例えば、ポリアミド系樹脂などが知られている。
このように、ウォーム等の金属材とウォームホイール等の樹脂材とで構成された摺動部分の潤滑に適合し得るグリース組成物が求められている。
例えば、特許文献1には、金属材と樹脂材とで構成された摺動部分の潤滑に適合し得る潤滑剤組成物として、フッ素系ポリエーテル油を含む基油と、メラミンシアヌレートとを含有する、樹脂-金属摺動用潤滑剤組成物が開示されている。
また、特許文献2には、メラミンシアヌレートを含有するグリース組成物として、合成炭化水素油からなる基油と、リチウム石けんからなる増ちょう剤と、メラミンシアヌレートとを含有する、グリース組成物が開示されている。
また、特許文献2に開示されるグリース組成物は、ゴム部材同士、又はゴム部材と樹脂部材との摺動箇所における摩擦特性を向上させるものである。
したがって、メラミンシアヌレートが配合され、金属材との樹脂材とで構成された摺動部分の潤滑に適合し得るグリース組成物については、検討されていない。
しかしながら、特許文献1の樹脂-金属摺動用潤滑剤組成物、特許文献2のグリース組成物は、金属材と樹脂材との耐摩耗性についても何ら検討されていない。
[1] 基油(A)、ウレア系増ちょう剤(B)、及びメラミンシアヌレート(C)を含有するグリース組成物であって、
前記グリース組成物中の前記ウレア系増ちょう剤(B)を含む粒子が下記要件(I)を満たす、グリース組成物。
・要件(I):前記粒子をレーザー回折・散乱法により測定した際の面積基準での算術平均粒子径が2.0μm以下である。
また、本明細書において、実施例の数値は、上限値又は下限値として用いられ得る数値である。
本明細書において、例えば、「(メタ)アクリレート」とは、「アクリレート」及び「メタクリレート」の双方を示す語として用いており、他の類似用語や同様の標記についても、同じである。
本発明のグリース組成物は、基油(A)、ウレア系増ちょう剤(B)、及びメラミンシアヌレート(C)を含有するグリース組成物であって、前記グリース組成物中の前記ウレア系増ちょう剤(B)を含む粒子が下記要件(I)を満たす、グリース組成物である。
・要件(I):前記粒子をレーザー回折・散乱法により測定した際の面積基準での算術平均粒子径が2.0μm以下である。
以降の説明では、「基油(A)」、「ウレア系増ちょう剤(B)」、及び「メラミンシアヌレート(C)」を、それぞれ「成分(A)」、「成分(B)」、及び「成分(C)」ともいう。
なお、本発明の一態様のグリース組成物は、本発明の効果を損なわない範囲で、成分(A)、(B)、及び(C)以外の他の成分を含んでいてもよい。
以降の説明では、「油性剤(D)」、「耐摩耗剤(E)」、及び「摩擦低減剤(F)」を、それぞれ「成分(D)」、「成分(E)」、及び「成分(F)」ともいう。
上述したように、ガラス繊維を含有する強化樹脂は、樹脂の表面等でガラス繊維が垂直配向する傾向にあるため、ウォーム等の接触金属面がガラス繊維を引っかき、ガラス繊維が破壊されることにより、樹脂材の表面に欠陥が発生しやすい。
ここで、当該樹脂材と、メラミンシアヌレートを含有するグリース組成物とが接触すると、樹脂材の表面に生じた欠陥に固体潤滑剤であるメラミンシアヌレートが入り込み、メラミンシアヌレートが欠陥をふさぐ役割を果たすと推察した。また、樹脂材に長期間、高荷重がかかっても、樹脂材の欠陥の進行が抑制されると推察した。したがって、メラミンシアヌレートを含むグリース組成物は、摩耗量を減少できると知見するに至った。
本発明のグリース組成物は、前記グリース組成物中の前記ウレア系増ちょう剤(B)を含む粒子が、下記要件(I)を満たす。
・要件(I):前記粒子をレーザー回折・散乱法により測定した際の面積基準での算術平均粒子径が2.0μm以下である。
上記要件(I)を満たすことで、耐摩耗性に優れるグリース組成物となる。
ここで、レーザー回折・散乱法により測定する対象となる「ウレア系増ちょう剤(B)を含む粒子」とは、グリース組成物に含まれるウレア系増ちょう剤(B)が凝集してなる粒子を指す。
なお、グリース組成物中にウレア系増ちょう剤(B)以外の添加剤が含まれる場合、上記要件(I)で規定する粒子径は、当該添加剤を配合せずに同一条件で調製したグリース組成物をレーザー回折・散乱法により測定することで得られる。但し、当該添加剤が室温(25℃)で液状である場合、又は当該添加剤が基油(A)に溶解する場合には、当該添加剤が配合されたグリース組成物を測定対象としても構わない。
これに対し、本発明者らが鋭意検討した結果、上記要件(I)で規定する粒子径を2.0μm以下に微細化することで、メラミンシアヌレート(C)との組合せにより、耐摩耗性に優れるグリース組成物とできることがわかった。
この効果は、上記要件(I)で規定する粒子径を2.0μm以下に微細化することで、ウレア系増ちょう剤(B)を含む粒子が、ウォームギア等の潤滑部位(摩擦面)に入り込みやすくなると共に、当該潤滑部位からも除去されにくくなることにより、当該潤滑部位におけるグリース組成物の保持力が向上することで奏されるものと推察される。また、上記要件(I)で規定する粒子径を2.0μm以下に微細化することで、当該粒子による基油(A)の保持力が向上する。そのため、ウォームギア等の潤滑部位(摩擦面)に基油(A)を良好に行き渡らせると共に、これに随伴してメラミンシアヌレート(C)も潤滑部位に良好に行き渡らせる作用が向上し、耐摩耗性が向上するものと推察される。
上記観点から、本発明の一態様のグリース組成物において、上記要件(I)で規定する粒子径は、好ましくは1.5μm以下、より好ましくは1.0μm以下、更に好ましくは0.9μm以下、より更に好ましくは0.8μm以下、更になお好ましくは0.7μm以下、一層好ましくは0.6μm以下、より一層好ましくは0.5μm以下、更に一層好ましくは0.4μm以下である。また、通常0.01μm以上である。
ここで、本発明の一態様のグリース組成物は、更に下記要件(II)を満たすことが好ましい。
・要件(II):前記粒子をレーザー回折・散乱法により測定した際の比表面積が0.5×105cm2/cm3以上である。
上記要件(II)で規定する比表面積は、グリース組成物中のウレア系増ちょう剤(B)を含む粒子の微細化の状態と大きな粒子(ダマ)の存在とを示す副次的な指標である。即ち、上記要件(I)を満たし、更に上記要件(II)を満たすことで、グリース組成物中のウレア系増ちょう剤(B)を含む粒子の微細化の状態がより良好であり、大きな粒子(ダマ)の存在もより抑えられていることを表す。したがって、耐摩耗性に優れ、メラミンシアヌレート(C)による効果が発揮されやすいグリース組成物とすることができる。
上記観点から、上記要件(II)で規定する比表面積は、好ましくは0.7×105cm2/cm3以上、より好ましくは0.8×105cm2/cm3以上、更に好ましくは1.2×105cm2/cm3以上、より更に好ましくは1.5×105cm2/cm3以上、更になお好ましくは1.8×105cm2/cm3以上、一層好ましくは2.0×105cm2/cm3以上である。なお、比表面積は、通常、1.0×106cm2/cm3以下である。
また、上記要件(I)、更には上記要件(II)で規定する値は、主にウレア系増ちょう剤(B)の製造条件により調整可能である。
以下、上記要件(I)、更には上記要件(II)で規定する値の調整するための具体的な手段に着目しながら、本発明のグリース組成物に含まれる各成分の詳細について説明する。
本発明のグリース組成物に含まれる基油(A)としては、鉱油及び合成油から選ばれる1種以上であればよい。
鉱油としては、例えば、パラフィン系原油、中間基系原油、又はナフテン系原油を常圧蒸留もしくは減圧蒸留して得られる留出油、これらの留出油を常法に従って精製することによって得られる精製油が挙げられる。
精製方法としては、例えば、溶剤脱ろう処理、水素化異性化処理、水素化仕上げ処理、白土処理等が挙げられる。
炭化水素系油としては、例えば、ノルマルパラフィン、イソパラフィン、ポリブテン、ポリイソブチレン、1-デセンオリゴマー、1-デセンとエチレンコオリゴマー等のポリ-α-オレフィン(PAO)及びこれらの水素化物等が挙げられる。
また、本実施形態の基油(A)は、40℃動粘度が、好ましくは420mm2/s以下、より好ましくは300mm2/s以下、更に好ましくは200mm2/s以下である。基油(A)の40℃動粘度が420mm2/s以下であると、本発明の効果をより発揮させやすい。
これらの数値範囲の上限値及び下限値は任意に組み合わせることができる。具体的には、好ましくは10~420mm2/s、より好ましくは20~300mm2/s、更に好ましくは30~200mm2/sである。
なお、本発明の一態様で用いる基油(A)は、高粘度の基油と、低粘度の基油とを組み合わせて、動粘度を上記範囲に調製した混合基油を用いてもよい。
なお、本明細書において、動粘度及び粘度指数は、JIS K2283:2000に準拠して測定又は算出した値を意味する。
本発明のグリース組成物に含まれるウレア系増ちょう剤(B)としては、ウレア結合を有する化合物であればよいが、2つのウレア結合を有するジウレア化合物が好ましく、下記一般式(b1)で表されるジウレア化合物がより好ましい。
R1-NHCONH-R3-NHCONH-R2 (b1)
なお、本発明の一態様で用いるウレア系増ちょう剤(B)は、1種からなるものであってもよく、2種以上の混合物であってもよい。
また、R1及びR2として選択し得る1価の炭化水素基としては、飽和又は不飽和の1価の鎖式炭化水素基、飽和又は不飽和の1価の脂環式炭化水素基、1価の芳香族炭化水素基が挙げられる。
・要件(a):[(X+Y)/(X+Y+Z)]×100の値が90以上(好ましくは95以上、より好ましくは98以上、更に好ましくは100)である。
・要件(b):X/Y比が、0/100(X=0、Y=100)~100/0(X=100、Y=0)(好ましくは10/90~90/10、より好ましくは80/20~20/80、更に好ましくは70/30~40/60)である。
なお、前記脂環式炭化水素基、前記鎖式炭化水素基、及び前記芳香族炭化水素基は、上記一般式(b1)中のR1及びR2として選択される基であることから、X、Y、及びZの値の総和は、上記一般式(b1)で示される化合物1モルに対して、2モル当量である。また、上記要件(a)及び(b)の値は、グリース組成物中に含まれる、上記一般式(b1)で示される化合物群全量に対する平均値を意味する。
上記要件(a)及び(b)を満たす、上記一般式(b1)で表される化合物を用いることで、低温特性に優れるグリース組成物としやすい。
なお、X、Y、及びZの値は、原料として使用する各アミンのモル当量から算出することができる。
1価の不飽和鎖式炭化水素基としては、炭素数6~24の直鎖又は分岐鎖のアルケニル基が挙げられ、具体的には、ヘキセニル基、ヘプテニル基、オクテニル基、ノネニル基、デセニル基、ウンデセニル基、ドデセニル基、トリデセニル基、テトラデセニル基、ペンタデセニル基、ヘキサデセニル基、ヘプタデセニル基、オクタデセニル基、ノナデセニル基、イコセニル基、オレイル基、ゲラニル基、ファルネシル基、リノレイル基等が挙げられる。
なお、1価の飽和鎖式炭化水素基及び1価の不飽和鎖式炭化水素基は、直鎖状であってもよく、分岐鎖状であってもよい。
R3として選択し得る2価の芳香族炭化水素基としては、例えば、フェニレン基、ジフェニルメチレン基、ジフェニルエチレン基、ジフェニルプロピレン基、メチルフェニレン基、ジメチルフェニレン基、エチルフェニレン基等が挙げられる。
これらの中でも、フェニレン基、ジフェニルメチレン基、ジフェニルエチレン基、又はジフェニルプロピレン基が好ましく、ジフェニルメチレン基がより好ましい。
成分(B)の含有量が1.0質量%以上であれば、得られるグリース組成物の混和ちょう度を適度な範囲に調製し易い。
一方、成分(B)の含有量が20.0質量%以下であれば、得られるグリース組成物を軟らかく調整できるため、潤滑性を良好なものとしやすく、耐摩耗性を向上させやすい。
ウレア系増ちょう剤(B)は、通常、イソシアネート化合物と、モノアミンとを反応させることによって得ることができる。当該反応は、上述の基油(A)にイソシアネート化合物を溶解させて得られる加熱した溶液αに、基油(A)にモノアミンを溶解させた溶液βを添加する方法が好ましい。
例えば、前記一般式(b1)で表される化合物を合成する場合に、イソシアネート化合物としては、前記一般式(b1)中のR3で示される2価の芳香族炭化水素基に対応する基を有するジイソシアネートを用い、モノアミンとしては、R1及びR2で示される1価の炭化水素基に対応する基を有するアミンを用いて、上記の方法により、所望のウレア系増ちょう剤(B)を合成することができる。
[1]グリース原料が導入される導入部、及び外部にグリースを吐出させる吐出部を有する容器本体と、
前記容器本体の内周の軸方向に回転軸を有し、前記容器本体の内部に回転可能に設けられた回転子とを備え、
前記回転子は、
(i)前記回転子の表面に沿って、凹凸が交互に設けられ、当該凹凸が前記回転軸に対して傾斜し、
(ii)前記導入部から前記吐出部方向への送り能力を有する
第一凹凸部を備えている、グリース製造装置。
図1に示すグリース製造装置1は、グリース原料を内部に導入する容器本体2と、容器本体2の内周の中心軸線上に回転軸12を有し、回転軸12を中心軸として回転する回転子3とを備える。
回転子3は、回転軸12を中心軸として高速回転し、容器本体2の内部でグリース原料に高いせん断力を与える。これにより、ウレア系増ちょう剤(B)を含むグリースが製造される。
容器本体2は、図1に示すように、上流側から順に、導入部4、滞留部5、第一内周面6、第二内周面7、及び吐出部8に区画されていることが好ましい。
容器本体2は、図1に示すように、導入部4から吐出部8に向かうにしたがって、次第に内径が拡径する円錐台状の内周面を有していることが好ましい。
容器本体2の一端となる導入部4は、容器本体2の外部からグリース原料を導入する複数の溶液導入管4A、4Bを備える。
第一内周面6は、滞留部5に隣接した下流部に配置され、第二内周面7は、第一内周面6に隣接した下流部に配置される。詳しくは後述するが、第一内周面6に第一凹凸部9を設けること、及び第二内周面7に第二凹凸部10を設けることが、第一内周面6及び第二内周面7をグリース原料又はグリースに高いせん断力を付与する高せん断部として機能させる上で好ましい。
容器本体2の他端となる吐出部8は、第一内周面6と第二内周面7で撹拌されたグリースを吐出する部分であり、グリースを吐出する吐出口11を備える。吐出口11は、回転軸12に直交する方向又は略直交する方向に形成されている。これにより、グリースが吐出口11から回転軸12に直交する方向又は略直交する方向に吐出される。但し、吐出口11は、必ずしも回転軸12に直交せずともよく、回転軸12と平行方向又は略平行方向に形成されていてもよい。
回転子3は、容器本体2の円錐台の内径の拡大に応じて拡大する外周面を有し、回転子3の外周面と、容器本体2の円錐台の内周面とは、一定の間隔が維持されている。
回転子3の外周面には、回転子3の表面に沿って凹凸が交互に設けられた回転子の第一凹凸部13が設けられている。
円周方向における回転子の第一凹凸部13の凸部13Bの数は、好ましくは2~1000個、より好ましくは6~500個、更に好ましくは12~200個である。
回転軸12に対する、回転子の第一凹凸部13の傾斜角度は、好ましくは2~85度、より好ましくは3~45度、更に好ましくは5~20度である。
また、容器本体2側の第一凹凸部9の凹凸は、回転子の第一凹凸部13とは逆向きに傾斜していることが好ましい。
即ち、容器本体2側の第一凹凸部9の複数の凹凸は、回転子3の回転軸12が図1に示される方向に回転する時に、溶液を下流側に押し出す方向に傾斜していることが好ましい。容器本体2の第一内周面6に備えられた複数の凹凸を有する第一凹凸部9によって、撹拌能力と吐出能力が更に増強される。
容器本体2側の第一凹凸部9の凹凸の本数は、好ましくは2~1000本、より好ましくは6~500本、更に好ましくは12~200本である。
回転軸12に対する、容器本体2側の第一凹凸部9の凹凸の傾斜角度は、好ましくは2~85度、より好ましくは3~45度、更に好ましくは5~20度である。
なお、容器本体2の第一内周面6に第一凹凸部9を備えることによって、第一内周面6をグリース原料又はグリースに高いせん断力を付与するせん断部として機能させることができるが、第一凹凸部9は必ずしも設けずともよい。
回転子の第二凹凸部14は、回転子3の回転軸12に対して傾斜し、導入部4から吐出部8に向けて、溶液を上流側に押し戻す送り抑制能力を有する。
円周方向における回転子の第二凹凸部14の凸部の数は、好ましくは2~1000個、より好ましくは6~500個、更に好ましくは12~200個である。
回転軸12に対する、回転子の第二凹凸部14の傾斜角度は、好ましくは2~85度、より好ましくは3~45度、更に好ましくは5~20度である。
凹凸は、容器本体2の内周面に複数形成され、それぞれの凹凸は、回転子の第二凹凸部14の傾斜方向とは逆向きに傾斜していることが好ましい。
即ち、容器本体2側の第二凹凸部10の複数の凹凸は、回転子3の回転軸12が図1に示される方向に回転する時に、溶液を上流側に押し戻す方向に傾斜していることが好ましい。容器本体2の第二内周面7に備えられた第二凹凸部10の凹凸によって、撹拌能力が更に増強される。また、容器本体の第二内周面7をグリース原料又はグリースに高いせん断力を付与するせん断部として機能させ得る。
容器本体2側の第二凹凸部10の凹部の本数は、好ましくは2~1000本、より好ましくは6~500本、更に好ましくは12~200本である。
回転軸12に対する、容器本体2側の第二凹凸部10の傾斜角度は、好ましくは2~85度、より好ましくは3~45度、更に好ましくは5~20度である。
容器本体2側の第一凹凸部9の長さと、容器本体2側の第二凹凸部10の長さとの比〔第一凹凸部の長さ/第二凹凸部の長さ〕は、好ましくは2/1~20/1である。
図2に示す、回転子の第一凹凸部13には、第一凹凸部13の凸部13Bの突出方向先端よりも、先端が容器本体2の内周面側に突出したスクレーパー15が複数設けられている。また、図示を省略するが、第二凹凸部14にも、第一凹凸部13と同様、凸部の先端が容器本体2の内周面側に突出したスクレーパーが複数設けられている。
スクレーパー15は、容器本体2側の第一凹凸部9、及び、容器本体2側の第二凹凸部10の内周面に付着したグリースを掻き取るものである。
回転子の第一凹凸部13の凸部13Bの突出量に対する、スクレーパー15の先端の突出量は、スクレーパー15の先端の半径(R2)と、凸部13Bの先端の半径(R1)との比〔R2/R1〕が、1.005を超え、2.0未満となることが好ましい。
なお、図2に示すグリース製造装置1では、スクレーパー15を設けているが、スクレーパー15を設けないものであってもよく、間欠的にスクレーパー15を設けたものであってもよい。
そして、このようにして得られたグリース基材に、硫黄-リン系極圧剤(C)、及び他の添加剤(D)を配合しても、上記要件(I)、更には上記要件(II)を満たすように、グリース組成物中のウレア系増ちょう剤(B)を微細化することができる。
混合液に対するせん断速度ができるだけ均一であることにより、グリース組成物中のウレア系増ちょう剤(B)やその前駆体を微細化しやすくなり、より均一なグリース構造となる。
・最高せん断速度(Max)=(回転子の第一凹凸部13の凸部13B先端の線速度)/(回転子の第一凹凸部13の凸部13B先端と容器本体2の第一内周面6の第一凹凸部9の凸部のギャップA1)
・最低せん断速度(Min)=(回転子の第一凹凸部13の凹部13Aの線速度)/(回転子の第一凹凸部13の凹部13Aと容器本体2の第一内周面6の第一凹凸部9の凹部のギャップA2)
なお、ギャップA1とギャップA2は、図2に示されるとおりである。
また、スクレーパー15が、付着したグリースを掻き取ることにより、滞留グリースが回転子3の回転の抵抗となるのを防止することができるため、回転子3の回転トルクを低減することができ、駆動源の消費電力を低減して、効率的にグリースの連続製造を行うことができる。
回転子3の外周面に、回転子の第一凹凸部13が設けられ、回転子の第一凹凸部13が回転子3の回転軸12に対して傾斜し、導入部4から吐出部8への送り能力を有し、回転子の第二凹凸部14が回転子3の回転軸12に対して傾斜し、導入部4から吐出部8への送り抑制能力を有しているため、溶液に高いせん断力を付与することができ、添加剤を配合後も、上記要件(I)、更には上記要件(II)を満たすように、グリース組成物中のウレア系増ちょう剤(B)を微細化することができる。
また、容器本体2の第二内周面7に第二凹凸部10が設けられると共に、回転子3の外周面に回転子の第二凹凸部14が設けられることにより、グリース原料が必要以上に容器本体の第一内周面6から流出することを防止できるので、溶液に高いせん断力を与えてグリース原料を高分散化して、添加剤を配合後も、上記要件(I)、更には上記要件(II)を満たすように、ウレア系増ちょう剤(B)を微細化することができる。
本発明のグリース組成物は、成分(A)及び成分(B)と共に、メラミンシアヌレート(C)を含む。
本発明のグリース組成物がメラミンシアヌレート(C)を含むことにより、耐摩耗性に優れたグリース組成物とすることができる。
メラミンシアヌレートとは、メラミンとシアヌル酸からなる有機塩であり、グラファイト構造を有するものである。
メラミンシアヌレート(C)の粒子径が小さい程、グリース組成物が接触する樹脂材の表面に生じた欠陥に固体潤滑剤であるメラミンシアヌレート(C)が入り込みやすく、メラミンシアヌレート(C)が欠陥をふさぐため、樹脂材に長期間、高荷重がかかっても、樹脂材の欠陥の進行が抑制され、摩耗量を減少することができる。したがって、メラミンシアヌレート(C)の粒子径が小さい程好ましい。
なお、本明細書において、メラミンシアヌレート(C)の粒子径とは、以下の方法により測定される平均粒径を意味する。また、メラミンシアヌレート(C)単体の粒子径は、グリース組成物中でも同等の粒子径が維持される。(即ち、グリース組成物中に含有されるメラミンシアヌレート(C)の粒子径は、メラミンシアヌレート(C)そのものの粒子径と同程度である。)
メラミンシアヌレート(C)の粒子径(平均粒径)としては、動的光散乱法(光子相関法)により25℃で測定し、CONTIN法で解析した分散粒径分布から算出した、散乱強度基準の50%粒径(体積中位粒径、D50)を用いることができる。
本発明のグリース組成物は、成分(A)、成分(B)、及び成分(C)と共に、油性剤(D)を含むことが好ましい。
本発明の一態様のグリース組成物が油性剤(D)を含むことにより、摩擦係数をより低減したグリース組成物とすることができる。
サルコシン誘導体(D1)としては、カルボキシル基が結合している炭素原子に、メチル基を有する2級又は3級アミノ基が結合しているα-アミノ酸であり、N-メチルグリシン又はN-メチルグリシン骨格を有する脂肪族アミノ酸であればよい。
サルコシン誘導体(D1)としては、例えば、N-オレオイルサルコシン、N-メチル-オレイルサルコシン、N-メチル-ステアリルサルコシン、N-オクチル-オレイルサルコシン、N-ラウリル-オレイルサルコシン、N-ラウリル-ステアリルサルコシン等が挙げられる。これらの中でも、N-オレオイルサルコシンが好ましい。
これらのサルコシン誘導体(D1)は、単独で用いてもよく、2種以上を併用してもよい。
当該アルキル基及びアルケニル基の炭素数としては、1~30であるが、好ましくは6~27、より好ましくは10~24、更に好ましくは12~20である。
当該アルキル基は、直鎖アルキル基であってもよく、分岐鎖アルキル基であってもよい。
また、当該アルケニル基も、直鎖アルケニル基であってもよく、分岐鎖アルケニル基であってもよい。
アミン化合物(D2)としては、アミノ基を有する化合物であればよく、モノアミン、ジアミン、トリアミン等が挙げられる。
アミン化合物(D2)は、単独で用いてもよく、2種以上を併用してもよい。
これらの中でも、本発明の一態様で用いるアミン化合物(D2)としては、モノアミンが好ましく、脂肪族モノアミンがより好ましい。
R11~R13として選択し得る、アルキル基及びアルケニル基の炭素数としては、好ましくは8~22、より好ましくは10~20、更に好ましくは12~18である。
当該アルキル基は、直鎖アルキル基であってもよく、分岐鎖アルキル基であってもよい。
また、当該アルケニル基も、直鎖アルケニル基であってもよく、分岐鎖アルケニル基であってもよい。
前記一般式(d2-ii)で表される第2級脂肪族モノアミンとしては、例えば、ジオクチルアミン、ジラウリルアミン、ジステアリルアミン、ジオレイルアミン等が挙げられる。
前記一般式(d2-iii)で表される第3級脂肪族モノアミンとしては、例えば、トリオクチルアミン、トリラウリルアミン、トリステアリルアミン、トリオレイルアミン等が挙げられる。
ポリアミド化合物(D3)としては、アミド結合を複数有する化合物であればよいが、カルボン酸類とアミン類とを反応させてなる酸アミドであることが好ましく、脂肪酸とアミン類とを反応させてなる脂肪酸アミドであることがより好ましい。
ポリアミド化合物(D3)は、単独で用いてもよく、2種以上を併用してもよい。
なお、これらの飽和脂肪酸及び不飽和脂肪酸は、直鎖及び分岐鎖のいずれであってもよい。
また、不飽和脂肪酸が有する二重結合の位置は任意である。
なお、アルキルアミンが有するアルキル基は、直鎖及び分岐鎖のいずれであってもよい。
なお、アルカノールアミンが有するアルカノール基は、直鎖及び分岐鎖のいずれであってもよい。
エーテル化合物(D4)としては、エーテル結合を有する化合物であればよいが、例えば、脂肪族エーテルなどが挙げられる。
脂肪族エーテルとしては、例えば、モノアルキルグリセリルエーテルなどが挙げられる。
モノアルキルグリセリルエーテルに含まれるアルキル基の炭素数としては、好ましくは1~20、より好ましくは4~10である。モノアルキルグリセリルエーテルに含まれるアルキル基は、直鎖であってもよいし、分岐鎖を有していてもよい。
モノアルキルグリセリルエーテルに含まれるアルキル基としては、例えば、メチル基、エチル基、プロピル基、n-ブチル基、イソブチル基、n-ペンチル基、2-メチルブチル基、イソペンチル基、n-ヘキシル基、イソヘキシル基、n-ヘプチル基、n-オクチル基、2-エチルヘキシル基、n-デシル基、イソデシル基などが挙げられる。
モノアルキルグリセリルエーテルとしては、例えば、1-メチルグリセリルエーテル、2-メチルグリセリルエーテル、1-エチルグリセリルエーテル、1-ペンチルグリセリルエーテル、2-ペンチルグリセリルエーテル、1-オクチルグリセリルエーテルなどが挙げられる。
本発明のグリース組成物は、成分(A)、成分(B)、及び成分(C)と共に、耐摩耗剤(E)を含むことが好ましい。
本発明の一態様のグリース組成物が耐摩耗剤(E)を含むことにより、耐摩耗性をより向上させたグリース組成物とすることができる。
脂肪酸エステルを構成する脂肪酸としては、飽和脂肪酸であってもよいし、不飽和脂肪酸であってもよい。
脂肪酸エステルを構成する脂肪酸の炭素数としては、好ましくは10~24、より好ましくは12~22、更に好ましくは16~20である。
脂肪酸エステルとしては、特に制限はなく、例えば、ステアリン酸メチル、ラウリン酸メチル、ミリスチン酸メチル、パルミチン酸メチル、オレイン酸メチル、エルカ酸メチル、ベヘン酸メチル、ラウリン酸ブチル、ステアリン酸ブチル、ミリスチン酸イソプロピル、パルミチン酸イソプロピル、パルミチン酸オクチルなどが挙げられる。これらは1種であってもよく、2種以上を併用してもよい。これらの中でも、ステアリン酸メチルが好ましい。
脂肪酸ビスアミドとしては、特に制限はなく、例えば、エチレンビスステアリン酸アミド、メチレンビスカプリル酸アミド、メチレンビスカプリン酸アミド、メチレンビスラウリン酸アミド、メチレンビスミリスチン酸アミド、メチレンビスパルミチン酸アミド、メチレンビスステアリン酸アミド、メチレンビスイソステアリン酸アミド、メチレンビスベヘン酸アミド、メチレンビスオレイン酸アミド、メチレンビスエルカ酸アミド、エチレンビスカプリル酸アミド、エチレンビスカプリン酸アミド、エチレンビスラウリン酸アミド、エチレンビスミリスチン酸アミド、エチレンビスパルミチン酸アミド、エチレンビスイソステアリン酸アミド、エチレンビスベヘン酸アミド、エチレンビスオレイン酸アミド、エチレンビスエルカ酸アミド、ブチレンビスステアリン酸アミド、ブチレンビスベヘン酸アミド、ブチレンビスオレイン酸アミド、ブチレンビスエルカ酸アミド、ヘキサメチレンビスステアリン酸アミド、ヘキサメチレンビスベヘン酸アミド、ヘキサメチレンビスオレイン酸アミド、ヘキサメチレンビスエルカ酸アミド、m-キシリレンビスステアリン酸アミド、m-キシリレンビス-12-ヒドロキシステアリン酸アミド、p-キシリレンビスステアリン酸アミド、p-フェニレンビスステアリン酸アミド、メチレンビスヒドロキシステアリン酸アミド、エチレンビスヒドロキシステアリン酸アミド、ブチレンビスヒドロキシステアリン酸アミド、ヘキサメチレンビスヒドロキシステアリン酸アミドなどが挙げられる。これらは1種であってもよく、2種以上を併用してもよい。これらの中でも、エチレンビスステアリン酸アミドが好ましい。
本発明のグリース組成物は、成分(A)、成分(B)、及び成分(C)と共に、摩擦低減剤(F)を含むことが好ましい。
本発明の一態様のグリース組成物が摩擦低減剤(F)を含むことにより、グリース組成物の摩擦特性をより向上させることができる。
オレフィン系共重合体としては、例えば、エチレン-プロピレン共重合体、エチレン-ブチレン共重合体などが挙げられる。
スチレン系共重合体としては、例えば、スチレン-ジエン共重合体、スチレン-イソプレン共重合体などが挙げられる。
これらは、1種を単独で用いてもよく、二種以上を組み合わせて用いてもよい。また、これらは、ランダム共重合体、ブロック共重合体の何れであってもよい。
これらの中でも、エチレン-プロピレン共重合体、エチレン-ブチレン共重合体が好ましい。
本発明の一態様のグリース組成物は、本発明の効果を損なわない範囲で、一般的なグリースに配合される、成分(B)、成分(C)、成分(D)、成分(E)、及び成分(F)以外の添加剤(G)を含有していてもよい。
添加剤(G)としては、例えば、酸化防止剤、防錆剤、極圧剤、増粘剤、固体潤滑剤、清浄分散剤、腐食防止剤、金属不活性剤等が挙げられる。
添加剤(G)は、それぞれ、1種を単独で用いてもよく、2種以上を併用してもよい。
防錆剤としては、例えば、アルケニルコハク酸多価アルコールエステル等のカルボン酸系防錆剤、
ステアリン酸亜鉛、チアジアゾール及びその誘導体、ベンゾトリアゾール及びその誘導体等が挙げられる。
極圧剤としては、例えば、ジアルキルジチオリン酸亜鉛,ジアルキルジチオリン酸モリブデン,無灰系ジチオカーバメートや亜鉛ジチオカーバメート、モリブデンジチオカーバメート等のチオカルバミン酸類;硫化油脂、硫化オレフィン、ポリサルファイド、チオリン酸類、チオテルペン類、ジアルキルチオジピロピオネート類等の硫黄化合物;トリクレジルホスフェート等のリン酸エステル;トリフェニルフォスファイト等の亜リン酸エステル;等が挙げられる。
固体潤滑剤としては、例えば、ポリイミド、PTFE、黒鉛、金属酸化物、窒化硼素、及び二硫化モリブデン等が挙げられる。
清浄分散剤としては、例えば、コハク酸イミド、ボロン系コハク酸イミド等の無灰分散剤が挙げられる。
腐食防止剤としては、例えば、ベンゾトリアゾール系化合物、チアゾール系化合物等が挙げられる。
金属不活性剤としては、例えば、ベンゾトリアゾール系化合物等が挙げられる。
(混和ちょう度)
本発明の一態様のグリース組成物の25℃における混和ちょう度としては、耐摩耗性を優れたものとする観点から、好ましくは220~430、より好ましくは240~360、更に好ましくは250~350、より更に好ましくは260~330である。
なお、本明細書において、グリース組成物の混和ちょう度は、JIS K2220:2013(箇条7)に準拠して、25℃にて測定された値を意味する。
本発明の一態様のグリース組成物について、後述する実施例に記載の方法により摩耗量の減少率を測定することで、耐摩耗性を評価することができる。
本発明のグリース組成物は、基油(A)、ウレア系増ちょう剤(B)を含むグリース(ベースグリース)、及びにメラミンシアヌレート(C)、並びに必要に応じて油性剤(D)、耐摩耗剤(E)、摩擦低減剤(F)、及び添加剤(G)を混合することにより製造することができる。
例えば、基油(A)とウレア系増ちょう剤(B)を含むグリース(ベースグリース)と混合し、その後、メラミンシアヌレート(C)、必要に応じて油性剤(D)、耐摩耗剤(E)、摩擦低減剤(F)、及び添加剤(G)を添加して混合し、均質化することにより製造することができる。
本発明のグリース組成物は、耐摩耗性に優れる。特に、金属材と樹脂材とで構成された摺動部分の潤滑に用いた際に、耐摩耗性に優れる。
そのため、本発明の一態様のグリース組成物は、各種装置の摺動部分の潤滑用途に好適に用いることができるが、特に、金属材と樹脂材とで構成された摺動部分を有する装置の潤滑用途に用いることが好ましい。
金属材は、炭素鋼、ステンレス鋼等の各種鋼、アルミニウム合金等の各種合金や銅が好ましい。なお、金属材は、強度が高い材料(例えば、セラミック材等)に置き換えてもよい。
樹脂材としては、天然樹脂でもよく、合成樹脂でもよいが、合成樹脂の汎用プラスチック(ポリエチレン、ポリスチレン、ポリプロピレン、ポリ塩化ビニール等)及びエンジニアリングプラスチックが好ましく、耐熱性及び機械的強度の観点から、エンジニアプラスチックがより好ましい。
エンジニアリングプラスチックとしては、例えば、ポリアミド樹脂、ポリアセタール樹脂、ポリカーボネート樹脂、ポリサルホン樹脂、ポリフェニレンサルファイド樹脂、ポリアミドイミド樹脂、ポリエーテルエーテルケトン樹脂、フェノール樹脂、ポリエステル樹脂、エポキシ樹脂等の合成樹脂が挙げられる。
また、樹脂材としては、繊維強化樹脂材が好ましい。
繊維強化樹脂材としては、例えば、ガラス繊維強化樹脂材が挙げられる。
本発明のグリース組成物を好適に使用し得る、自動車用分野の装置内での潤滑部分としては、例えば、ラジエータファンモータ、ファンカップリング、オルターネータ、アイドラプーリ、ハブユニット、ウォーターポンプ、パワーウィンドウ、ワイパ、電動パワーステアリング、駆動用電動モータフライホイール、ボールジョイント、ホイールベアリング、スプライン部、等速ジョイント等の装置内の軸受部分;ドアロック、ドアヒンジ、クラッチブースター等の装置内の軸受部分、ギヤ部分、摺動部分;等が挙げられる。
より具体的には、ハブユニット、電動パワーステアリング、駆動用電動モータフライホイール、ボールジョイント、ホイールベアリング、スプライン部、等速ジョイント、クラッチブースター、サーボモータ、ブレードベアリング又は発電機の軸受部分等が挙げられる。
本発明のグリース組成物を好適に使用し得る、工作機械分野の装置内での潤滑部分としては、例えば、スピンドル、サーボモータ、工作用ロボット等の減速機内の軸受部分等が挙げられる。
本発明のグリース組成物を好適に使用し得る、風車分野の装置内での潤滑部分としては、例えば、ブレードベアリング及び発電機等の軸受部分等が挙げられる。
本発明のグリース組成物を好適に使用し得る、建設用又は農業機械用分野の装置内での潤滑部分としては、例えば、ボールジョイント、スプライン部等の軸受部分、ギヤ部分及び摺動部分等が挙げられる。
本発明のグリース組成物に適用可能な摺動機構の潤滑方法は、金属材と樹脂材とが摺動する摺動機構を、上述した本発明のグリース組成物により潤滑する方法である。
[1] 基油(A)、ウレア系増ちょう剤(B)、及びメラミンシアヌレート(C)を含有するグリース組成物であって、
前記グリース組成物中の前記ウレア系増ちょう剤(B)を含む粒子が下記要件(I)を満たす、グリース組成物。
・要件(I):前記粒子をレーザー回折・散乱法により測定した際の面積基準での算術平均粒子径が2.0μm以下である。
[2] 前記グリース組成物中の前記ウレア系増ちょう剤(B)を含む粒子が、さらに下記要件(II)を満たす、前記[1]に記載のグリース組成物。
・要件(II):前記粒子をレーザー回折・散乱法により測定した際の比表面積が、0.5×105cm2/cm3以上である。
[3] 前記メラミンシアヌレート(C)の含有量が、前記グリース組成物の全量基準で、0.2質量%以上である、前記[1]又は[2]に記載のグリース組成物。
[4] 前記メラミンシアヌレート(C)の粒子径が、5.0μm以下である、前記[1]~[3]のいずれか1つに記載のグリース組成物。
[5] 更に、サルコシン誘導体(D1)、アミン化合物(D2)、ポリアミド化合物(D3)、及びエーテル化合物(D4)からなる群から選択される1種以上の油性剤(D)を含有する、前記[1]~[4]のいずれか1つに記載のグリース組成物。
[6] 前記メラミンシアヌレート(C)の含有量と前記油性剤(D)との含有比率[(C)/(D)]が、質量比で、0.3~3.0である、前記[5]に記載のグリース組成物
[7] 更に、エステル化合物(E1)及びビスアミド化合物(E2)からなる群から選択される1種以上の耐摩耗剤(E)を含有する、前記[1]~[6]のいずれか1つに記載のグリース組成物。
[8] 前記メラミンシアヌレート(C)の含有量と前記耐摩耗剤(E)との含有比率[(C)/(E)]が、質量比で、0.1~2.0である、前記[7]に記載のグリース組成物。
[9] 前記ウレア系増ちょう剤(B)の含有量が、グリース組成物の全量基準で、1.0質量%~20.0質量%である、前記[1]~[8]のいずれか1つに記載のグリース組成物。
[10] 前記ウレア系増ちょう剤(B)と前記メラミンシアヌレート(C)との含有比率[(B)/(C)]が、質量比で、1.0~18.0である、前記[1]~[9]のいずれか1つに記載のグリース組成物。
[11] 前記基油(A)の40℃動粘度が、30mm2/s~200mm2/sである、前記[1]~[10]のいずれか1つに記載のグリース組成物。
[12] 混和ちょう度が、260~330である、前記[1]~[11]のいずれか1つに記載のグリース組成物。
[13] 金属材と樹脂材とが摺動する摺動機構の潤滑に用いられる、前記[1]~[12]のいずれか1つに記載のグリース組成物。
[14] 前記樹脂材が、ガラス繊維強化樹脂材である、前記[13]に記載のグリース組成物。
[15] 前記[1]~[12]のいずれか1つに記載のグリース組成物により、金属材と樹脂材とが摺動する摺動機構を潤滑する、潤滑方法。
[16] 前記樹脂材が、ガラス繊維強化樹脂材である、前記[15]に記載の潤滑方法。
各種物性値の測定法は、以下のとおりとした。
(1)基油(A)の40℃動粘度及び粘度指数
JIS K2283:2000に準拠して測定及び算出した。
(2)メラミンシアヌレート(C)の平均粒子径
動的光散乱法(光子相関法)により25℃で測定し、CONTIN法で解析した分散粒径分布から算出した、散乱強度基準の50%粒径(体積中位粒径、D50)を用いた。
(3)高分子化合物(F1)の質量平均分子量(Mw)、数平均分子量(Mn)、及び分子量分布(Mw/Mn)
ゲル浸透クロマトグラフ装置(アジレント社製、装置名「1260型HPLC」)を用いて、下記の測定条件にしたがい、標準ポリスチレン換算にて測定した値を用いた。
-測定条件-
・カラム:「Shodex LF404」を2本、順次連結したもの。
・カラム温度:35℃
・展開溶媒:クロロホルム
・流速:0.3mL/min
(4)グリース組成物の混和ちょう度
JIS K2220:2013(箇条7)に準拠して、25℃にて測定した。
実施例1~4及び比較例1~2において、グリース組成物を調製するための原料として使用した基油(A)、メラミンシアヌレート(C)、油性剤(D)、耐摩耗剤(E)、摩擦低減剤(F)、及び添加剤(G)は、以下のとおりとした。
なお、表1中の含有量は、樹脂分換算の含有量である。
・基油(A1)(ポリ-α-オレフィン(PAO)、40℃動粘度:30mm2/s、粘度指数:130)
・基油(A2)(ポリ-α-オレフィン(PAO)、40℃動粘度:400mm2/s、粘度指数:150)
・メラミンシアヌレート(C1)(平均粒子径:約4.5μm)
・メラミンシアヌレート(C2)(平均粒子径:約3.0μm)
・メラミンシアヌレート(C3)(平均粒子径:約1.5μm)
・サルコシン誘導体(D1):N-オレオイルサルコシン
・アミン化合物(D2):オレイルアミン
・ポリアミド化合物(D3):イソステアリン酸とテトラエチレンペンタミンとの反応物
・エステル化合物(E1):ステアリン酸メチル
・ビスアミド化合物(E2):エチレンビスステアリン酸アミド
・高分子化合物(F1):エチレン-プロピレン共重合体(質量平均分子量(Mw):172,000、数平均分子量(Mn):93,500、分子量分布(Mw/Mn):1.84)
・酸化防止剤:フェノール系酸化防止剤
(1)ウレアグリースの合成
70℃に加熱した基油(A1)13.00質量部と基油(A2)26.45質量部との混合基油に、ジフェニルメタン-4,4’-ジイソシアネート(MDI)3.25質量部を加えて、溶液αを調製した。
また、別に用意した、70℃に加熱した基油(A1)13.00質量部と基油(A2)25.00質量部との混合基油に、シクロヘキシルアミン1.03質量部と、オクタデシルアミン(ステアリルアミン)4.20質量部とを加えて、溶液βを調製した。
そして、図1に示すグリース製造装置1を用いて、70℃に加熱した溶液αを溶液導入管4Aから、70℃に加熱した溶液βを溶液導入管4Bから、それぞれ等量を同時に容器本体2内へ導入し、回転子3を回転させた状態で溶液αと溶液βとを容器本体2内へ連続的に導入し続けた。その後、この混合物を撹拌装置で160℃に昇温し、1時間撹拌後、ロールミル処理して均一化して、ウレアグリース(b1)を合成した。
なお、使用したグリース製造装置1の回転子3の回転数は8,000rpmとした。また、この際の最高せん断速度(Max)は10,500s-1であり、最高せん断速度(Max)と最低せん断速度(Min)との比〔Max/Min〕は3.5として、撹拌を行った。
なお、得られたウレアグリースに含まれるウレア系増ちょう剤(B1)は、前記一般式(b1)中のR1及びR2が、シクロヘキシル基又はオクタデシル基(ステアリル基)であり、R3がジフェニルメチレン基である化合物に相当する。
また、原料として用いたシクロヘキシルアミンとオクタデシルアミンとのモル比(シクロヘキシルアミン/オクタデシルアミン)は、40/60である。
(2)グリース組成物の調製
上記(1)において、図1に示すグリース製造装置1から吐出されたウレアグリース(b1)を撹拌した後、自然放冷で冷却した。
次に、自然放冷で25℃まで冷却したウレアグリース(b1)に、表1に示すメラミンシアヌレート(C2)~フェノール系酸化防止剤までの各成分を、表1に示す配合量で添加して混合した。その後、3本ロールで均質化し、実施例1のグリース組成物を得た。
実施例1の(1)ウレアグリースの合成において、各成分の含有量を以下のように変更した以外は、実施例1と同様にして、実施例4のグリース組成物を得た。
・70℃に加熱した基油(A1)30.00質量部
・ジフェニルメタン-4,4’-ジイソシアネート(MDI)4.10質量部
・別に用意した、70℃に加熱した基油(A1)29.95質量部
・シクロヘキシルアミン2.60質量部
・オクタデシルアミン(ステアリルアミン)1.77質量部
なお、得られたウレアグリースに含まれるウレア系増ちょう剤(B2)は、前記一般式(b1)中のR1及びR2が、シクロヘキシル基又はオクタデシル基(ステアリル基)であり、R3がジフェニルメチレン基である化合物に相当する。
また、原料として用いたシクロヘキシルアミンとオクタデシルアミンとのモル比(シクロヘキシルアミン/オクタデシルアミン)は、80/20である。
表1に示す含有量に変更した以外は、上述したグリース組成物と同様にして、各グリース組成物を調製した。
実施例1~4及び比較例1~2において合成したウレアグリースについて、下記の算出を行った。
グリース組成物中のウレア系増ちょう剤を含む粒子の粒子径を評価した。具体的には、実施例1において合成したウレアグリース及び比較例1において合成したウレアグリースを測定試料とし、以下の手順によりウレア系増ちょう剤(B)を含む粒子の粒子径を含む粒子の粒子径を求めた。
まず、測定試料を真空脱泡した後1mLシリンジに充填し、シリンジから0.10~0.15mLの試料を押し出し、ペーストセル用固定治具の板状のセルの表面に押し出した試料を載せた。次に、試料の上に、更に別の板状のセルを重ねて、2枚のセルで試料を挟持した測定用セルを得た。次に、レーザー回折型粒径測定機(株式会社堀場製作所製、商品名:LA-920)を用いて、測定用セルの試料中の粒子の面積基準での算術平均粒子径を測定した。
ここで、「面積基準での算術平均粒子径」とは、面積基準での粒子径分布を算術平均した値を意味する。面積基準での粒子径分布は、測定対象である粒子全体における粒子径の頻度分布を、当該粒子径から算出される面積(詳細には、当該粒子径を有する粒子の断面積)を基準として示したものである。また、面積基準での粒子径分布を算術平均した値は、下記式(1)により計算することができる。
上記の要件(I)の欄において測定した、グリース組成物中の増ちょう剤を含む粒子の粒子径分布を用い、比表面積を算出した。具体的には、当該粒子径分布を用い、単位体積(1cm3)当たりの粒子の表面積(単位:cm2)の総計を算出し、これを比表面積(単位:cm2/cm3)とした。
JIS K7218-A法に準拠し、下記試験条件で摺動試験を行い、金属材と樹脂材との摺動部分における、樹脂材の摩耗量を測定した。なお、下記試験により得られる摩耗量とは、樹脂材のクリープ変形による樹脂の変化量と、樹脂の摩耗による樹脂の変化量の合計である。
また、基準値とする比較例の摩耗量に対する摩耗量の割合(摩耗量の減少率)を算出し、下記評価基準にしたがって、耐摩耗性を評価した。なお、下記評価基準において、「B」以上が実施可能レベルである。
なお、実施例1~4、比較例2は、基油(A)、ウレア系増ちょう剤(B1)、及びフェノール系酸化防止剤のみを含む比較例1を基準値とした。
-試験条件-
・試験装置:スラスト型摺動試験機(装置名:EFM-III-F-ADX-S、株式会社エー・アンド・デイ製)
・金属試験片:ころ形状、直径1.8mm、材質はS45C
・樹脂試験片:リング形状、外径25.6mm、内径20mm、材質はポリアミド66にガラス繊維を15質量%混合したもの
・摺動速度:1.0m/s
・荷重:350N
・試験時間:45分間
・試験温度:室温(25℃)
-耐摩耗性の評価基準-
A:基準値の摩耗量から減少した摩耗量の割合(摩耗量の減少率)が、75%以上
B:基準値の摩耗量から減少した摩耗量の割合(摩耗量の減少率)が、50%以上75%未満
C:基準値の摩耗量から減少した摩耗量の割合(摩耗量の減少率)が、50%未満
一方、メラミンシアヌレート(C)を含有しない比較例2のグリース組成物は、基準値の摩耗量から減少した摩耗量の割合(摩耗量の減少率)が、50%未満であり、摩耗量が十分に低減しなかった。
比較例1の組成からフェノール系酸化防止剤を除いた組成のグリース組成物を調製し、比較例3とした。
比較例3のグリース組成物99質量部に対し、メラミンシアヌレート(C1)を1質量部添加して混合した。その後、3本ロールで均質化し、実施例5のグリース組成物を得た。
メラミンシアヌレート(C1)を、それぞれメラミンシアヌレート(C2)、(C3)に変更した以外は、実施例5と同様にして、実施例6、7のグリース組成物を調製した。
実施例5~7について、比較例3を基準値とし、上述した耐摩耗性の評価と同様にして、比較例3の摩耗量に対する摩耗量の割合(摩耗量の減少率)を算出し、下記評価基準にしたがって、耐摩耗性を評価した。なお、下記評価基準において、「B」以上が実施可能レベルである。
-耐摩耗性の評価基準-
A:基準値の摩耗量から減少した摩耗量の割合(摩耗量の減少率)が、30%以上
B:基準値の摩耗量から減少した摩耗量の割合(摩耗量の減少率)が、20%以上30%未満
C:基準値の摩耗量から減少した摩耗量の割合(摩耗量の減少率)が、20%未満
2 容器本体
3 回転子
4 導入部
4A、4B 溶液導入管
5 滞留部
6 第一凹凸部
7 第二凹凸部
8 吐出部
9 容器本体側の第一凹凸部
10 容器本体側の第二凹凸部
11 吐出口
12 回転軸
13 回転子の第一凹凸部
13A 凹部
13B 凸部
14 回転子の第二凹凸部
15 スクレーパー
A1、A2 ギャップ
Claims (16)
- 基油(A)、ウレア系増ちょう剤(B)、及びメラミンシアヌレート(C)を含有するグリース組成物であって、
前記グリース組成物中の前記ウレア系増ちょう剤(B)を含む粒子が下記要件(I)を満たす、グリース組成物。
・要件(I):前記粒子をレーザー回折・散乱法により測定した際の面積基準での算術平均粒子径が2.0μm以下である。 - 前記グリース組成物中の前記ウレア系増ちょう剤(B)を含む粒子が、さらに下記要件(II)を満たす、請求項1に記載のグリース組成物。
・要件(II):前記粒子をレーザー回折・散乱法により測定した際の比表面積が、0.5×105cm2/cm3以上である。 - 前記メラミンシアヌレート(C)の含有量が、前記グリース組成物の全量基準で、0.2質量%以上である、請求項1又は2に記載のグリース組成物。
- 前記メラミンシアヌレート(C)の粒子径が、5.0μm以下である、請求項1~3のいずれか1項に記載のグリース組成物。
- 更に、サルコシン誘導体(D1)、アミン化合物(D2)、ポリアミド化合物(D3)、及びエーテル化合物(D4)からなる群から選択される1種以上の油性剤(D)を含有する、請求項1~4のいずれか1項に記載のグリース組成物。
- 前記メラミンシアヌレート(C)の含有量と前記油性剤(D)との含有比率[(C)/(D)]が、質量比で、0.3~3.0である、請求項5に記載のグリース組成物
- 更に、エステル化合物(E1)及びビスアミド化合物(E2)からなる群から選択される1種以上の耐摩耗剤(E)を含有する、請求項1~6のいずれか1項に記載のグリース組成物。
- 前記メラミンシアヌレート(C)の含有量と前記耐摩耗剤(E)との含有比率[(C)/(E)]が、質量比で、0.1~2.0である、請求項7に記載のグリース組成物。
- 前記ウレア系増ちょう剤(B)の含有量が、グリース組成物の全量基準で、1.0質量%~20.0質量%である、請求項1~8のいずれか1項に記載のグリース組成物。
- 前記ウレア系増ちょう剤(B)と前記メラミンシアヌレート(C)との含有比率[(B)/(C)]が、質量比で、1.0~18.0である、請求項1~9のいずれか1項に記載のグリース組成物。
- 前記基油(A)の40℃動粘度が、30mm2/s~200mm2/sである、請求項1~10のいずれか1項に記載のグリース組成物。
- 混和ちょう度が、260~330である、請求項1~11のいずれか1項に記載のグリース組成物。
- 金属材と樹脂材とが摺動する摺動機構の潤滑に用いられる、請求項1~12のいずれか1項に記載のグリース組成物。
- 前記樹脂材が、ガラス繊維強化樹脂材である、請求項13に記載のグリース組成物。
- 請求項1~12のいずれか1項に記載のグリース組成物により、金属材と樹脂材とが摺動する摺動機構を潤滑する、潤滑方法。
- 前記樹脂材が、ガラス繊維強化樹脂材である、請求項15に記載の潤滑方法。
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