序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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121 | COATING COMPOSITION FOR SLIDING MEMBERS | EP10810061 | 2010-08-19 | EP2468824A4 | 2013-02-13 | YAMAGUCHI TETSUJI; SASAKI TAKAHIKO |
A coating composition for a sliding member, wherein from 30 to 120 parts by weight of a solid lubricant and from 5 to 80 parts by weight of a silicone resin are included per 100 parts by weight of a film-forming organic resin. As a result of forming the film on the surface of the sliding member, a coating composition for a sliding member is provided whereby low frictional drag can be maintained for an extended period of time, and the sticking of the sliding member to glass surfaces and similar smooth surfaces can be prevented. | ||||||
122 | COATING COMPOSITION FOR SLIDING MEMBERS | EP10810061.1 | 2010-08-19 | EP2468824A1 | 2012-06-27 | YAMAGUCHI, Tetsuji; SASAKI, Takahiko |
A coating composition for a sliding member, wherein from 30 to 120 parts by weight of a solid lubricant and from 5 to 80 parts by weight of a silicone resin are included per 100 parts by weight of a film-forming organic resin. As a result of forming the film on the surface of the sliding member, a coating composition for a sliding member is provided whereby low frictional drag can be maintained for an extended period of time, and the sticking of the sliding member to glass surfaces and similar smooth surfaces can be prevented. |
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123 | SEILSCHMIERMITTEL | EP09748207.9 | 2009-10-29 | EP2331660A2 | 2011-06-15 | PHILLIPS, Richard; SCHLESIER, Daniel; SCHWARZER, Tim |
A dry lubricant (50) for flexible traction members (10), in particular wire cables and/or stranded ropes for static and/or dynamic loads, is characterized in that a major percentage of the dry lubricant (50) consists of a polymer material. Furthermore, in a method for manufacturing a flexible traction member (12) made up of multiple tension-proof elements (1.1, 1.2,..., 1.7, 20), in particular wires and/or strands and/or ropes, a dry lubricant (50) is applied to the tension-proof elements (1.1, 1.2,..., 1.7, 20) before the latter are joined together, said dry lubricant (50) being sprayed onto the tension-proof elements (1.1, 1.2,..., 1.7, 20) in a fluid state. | ||||||
124 | Lubricating oil for refrigerator with compressor | EP94115513.7 | 1989-12-01 | EP0634467B1 | 2000-10-04 | Kawaguchi, Yasuhiro, c/o Idemitsu Kosan Co., Ltd.; Shimizu, Nobuaki, c/o Idemitsu Kosan Co., Ltd.; Kaneko, Masato, c/o Idemitsu Kosan Co., Ltd.; Nagakawa, Hiroshi, c/o Idemitsu Kosan Co., Ltd. |
Disclosed is a lubricating oil for compression-type refrigerator comprising, as a main component, a polyoxyalkyleneglycol derivative represented by the general formula: R<1> &lsqbstr& (OR<2> &rparstr& @-OR<3>]n (wherein symbols are as defined in the specification). Said lubricating oil has a favorable compatibility with refrigerants and an excellent lubricating property, and is utilized as the lubricating oil for compression-type refrigerator employing hydrogen-containing flon compound refrigerants including Flon 134a. | ||||||
125 | AUTOMATIC TRANSMISSION FLUIDS OF IMPROVED VISCOMETRIC PROPERTIES | EP96929003.0 | 1996-08-20 | EP0874886A1 | 1998-11-04 | BLOCH, Ricardo, Alfredo; CORNISH, Christopher, William; WATTS, Raymond, Frederick |
This invention provides compositions and methods for producing partial synthetic automatic transmission fluids capable of improved viscometric properties and capable of achieving -40 DEG C. Brookfield viscosities not greater than 15,000 centipoise. | ||||||
126 | POWDER METALLURGY LUBRICANT COMPOSITION AND METHODS FOR USING SAME | EP95926197 | 1995-08-09 | EP0775186A4 | 1997-12-03 | LUK SYDNEY; LAWRENCE ANN |
The present invention provides lubricant compositions for the powder metallurgical field. The lubricant compositions contain a solid phase lubricant such as graphite, molybdenum disulfide, and polytetrafluoroethylene in combination with a liquid phase lubricant that is a binder for the solid phase lubricant. The binder can be chosen from various classes of compounds including polyethylene glycols, polyethylene glycol esters, partial esters of C3-6 polyhydric alcohols, polyvinyl esters, and polyvinyl pyrrolidones. The binder is solubilized in an organic solvent. | ||||||
127 | POWDER METALLURGY LUBRICANT COMPOSITION AND METHODS FOR USING SAME | EP95926197.0 | 1995-08-09 | EP0775186A1 | 1997-05-28 | LUK, Sydney; LAWRENCE, Ann |
The present invention provides lubricant compositions for the powder metallurgical field. The lubricant compositions contain a solid phase lubricant such as graphite, molybdenum disulfide, and polytetrafluoroethylene in combination with a liquid phase lubricant that is a binder for the solid phase lubricant. The binder can be chosen from various classes of compounds including polyethylene glycols, polyethylene glycol esters, partial esters of C3-6 polyhydric alcohols, polyvinyl esters, and polyvinyl pyrrolidones. The binder is solubilized in an organic solvent. | ||||||
128 | A forging lubricant and a method for forming a lubricant coat on the surface of a linear material | EP91111475.9 | 1991-07-10 | EP0468278B1 | 1996-04-10 | Ito, Yukio c/o Daido Tokushukou K.K.; Ishibashi, Tadaya; Mori, Tadahiro; Akazawa, Tadashi; Noguchi, Takao |
A lubricant to be sprayed onto the surface of a steel material for forming a lubricant coat on the surface of the steel material to be forged. The lubricant comprises a particulate lubricant composed of thermally melting resin mixed with inorganic lubricant. The particulate lubricant is applied onto the surface of a steel material to be forged. Before or after applying the particulate lubricant onto the surface of the steel material, the surface of the steel material is heated. Consequently, the thermally melting resin melts and coheres with the inorganic lubricant over the surface of the steel material, resulting in the formation of a uniformly thick lubricant coat over the steel material. The lubricant coat prevents the steel material from being burnt in a forging device even during hot forging. The lubricant coat is fit for the forging of hard to work steel material. The lubricant coat also contributes to the decrease in forging cost, without deteriorating the forging environment. | ||||||
129 | Verwendung von Polymethylalkanen als biologisch abbaubare Grundöle in Schmierstoffen und funktionellen Flüssigkeiten | EP93119866.7 | 1993-12-09 | EP0607553A1 | 1994-07-27 | Dr. Hoppe, Dirk; Dr. Bennewiss, Horst; Dr. Kraushaar, Frank; Dr. Stehr, Micael; Dr. Streck, Roland; Dr. Monkiewicz,Jaroslaw; Dr. Wey, Hans Günther |
Die Erfindung betrifft die Verwendung von Polymethylalkanen mit endständigen Methylgruppen sowie Methylen- und Ethylidengruppen der Formel I
Geeignete Polymethylalkane werden durch Oligomerisierung von α,ω-Diolefinen, z. B. insbesondere gemäß DE 41 19 332.6 oder durch Pyrolyse von Ethen/Propen-Copolymeren und jeweils anschließende Hydrierung erhalten. Die Polymethylalkane können mit üblichen Additiven und anderen abbaubaren oder nicht abbaubaren Grundölen kombiniert werden. |
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130 | Synthetic metalworking fluid | EP89313417.1 | 1989-12-21 | EP0375412A1 | 1990-06-27 | Quitmeyer, Joann Adele |
A metalworking fluid comprising a polybutene and a polyether glycol which preferably has a carboxylate function. The metalworking fluid may or may not be diluted with water to form a micro-emulsion. The metalworking fluid provides excellent lubrication and cooling during the working of both hard and soft metals and can be free of extreme pressure additives. |
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131 | Verfahren zur Erleichterung der Kaltumformung | EP86105685.1 | 1986-04-24 | EP0200167B1 | 1990-02-28 | Nagae, Yoshio NIHON PARKERIZING CO., LTD.; Hetsugi, Koji NIHON PARKERIZING CO., LTD. |
132 | Schmierstoffsystem für Blech- und Profilwalzwerke | EP87104244.6 | 1987-03-23 | EP0240825A2 | 1987-10-14 | Périard, Jacques, Dr.; Staub, Hans Rudolf; Lanini, Marco |
Schmierstoffsystem für Blech- und Profilwalzwerke, enthaltend einen Festschmierstoff, eine klebende Komponente und/oder ein Verdickungsmittel, sowie Wasser als Trägermedium. Dieses Schmierstoffsystem wird als Suspension auf die Arbeitszylinder im Walzgerüst aufgesprüht, wobei das Wasser wenigstens teilweise verdampft und sich eine fest haftende, wasserfeste, schmierende und trennende Schicht auf den Arbeitszylindern bildern. |
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133 | Flame resistant oil | EP84106415.7 | 1984-06-05 | EP0127903B1 | 1987-09-16 | Fukui, Shiroh; Kanematsu, Kiyoshi; Nishigaki, Haruo Mitsubishi Denki K.K.; Watanabe, Koji Mitsubishi Denki K.K. |
A flame resistant oil comprising a fluorine-type oil having a number average molecular weight of from about 300 to about 900 and a silicone oil having a number average molecular weight of from about 160 to about 57,000, wherein the fluorine-type oil and the silicone oil are combined and dissolved to each other with a combination of the respective molecular weights selected from the following combinations I to IV: -I 300 = X = 900 - 160 = Y < 400 -II 300 = X = 700 + 0.02Z2 - 400 = Y < 2,000 -III 300 = X = 600 + 0.02Z2 - 2,000 = Y < 4,000 -IV 300 = X = 500 + 0.02Z2 - 4,000 = Y = 57,000 - where X is the number average molecular weight of the fluorine-type oil, Y is the number average molecular weight of the silicone oil, and Z is the % by volume of the silicone oil in the flame resistant oil and 10=Z=90. | ||||||
134 | Oil based lubricant compostions | EP85302112.9 | 1985-03-26 | EP0157583A2 | 1985-10-09 | Currie, Andrew Christopher; Wilson, Alan Stuart |
This invention relates to oil-based lubricant compositions containing mixed esters of trimellitic acid. The ester mixture may be produced either by mixing individual esters of linear alcohols with those of branched chain alcohols, or by forming a mixed ester by reacting trimellitic acid with a mixture of linear and branched chain alcohols. The product ester mixture reduces the viscosity ratio and imparts acceptable low temperature hydrocarbon compatibility to the lubricants. |
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135 | Metal working lubricant | EP84112801.0 | 1984-10-24 | EP0142078A1 | 1985-05-22 | Baldwin, Bernard Arthur; Mark, Harold Wayne |
Metal working lubricating compositions useful as a precoating oil and as a coating and rolling operation, comprising mineral or synthetic oil and a sulfur containing carboxylic acid such as n-dodecylthioacetic acid and n-butylthioacetic acid. The composition also contains vegetable oil or animal fat. The lubricant composition provided is particularly useful in the cold rolling of steel and other metals. |
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136 | Air- and/or oven-drying lubricant paint composition for producing dry-film lubricants | EP81302038.5 | 1981-05-08 | EP0040496A1 | 1981-11-25 | Baumann, Gilbert; Deyber, Paul; Läpple, Werner; Huber, Wilhelm; Trautmann, Horst |
Air- and/or oven-drying lubricant paint compositions are disclosed which are useful for providing dry-film lubrication for substrates. The compositions comprise a binder resin dissolved in an orgnic solvent, optionally containing an extender, and further containing a polyalkylene wax which may be modified or unmodified. The dry-film lubricant provides a coefficient of friction which is lower, more uniform and of a narrower range than the compositions of the art. |
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137 | METHOD FOR REDUCING FRICTION | PCT/NL2008050569 | 2008-08-27 | WO2009028939A3 | 2009-08-06 | LENTING HERMANUS BERNARDUS MARIA; VAN BOMMEL KJELD JACOBUS CORNELIS; VAN DER HEIDE EMILE; TEN CATE AAFKE TESSA |
The invention is directed to a method for reducing friction between at least two bodies. The method of the invention comprises providing a surface of at least one of said at least two solid bodies with a covalently bound coating, wherein said surface is to be contacted with another one of said at least two solid bodies, and wherein said coating comprising at least one polymer; and providing a liquid onto said coating. | ||||||
138 | LUBRICANT ADDITIVE FORMULATION LUBRICANT ADDITIVE FORMULATION | PCT/US9514186 | 1995-11-03 | WO9615211A3 | 1996-08-08 | BAUMGART RICHARD J; DITURO MICHAEL A; LOCKWOOD FRANCES E |
A motor oil performance-enhancing engine treatment oil additive formulated for addition to conventional motor oil to improve the lubricating properties of the engine oil and enhance the performance of the engine. The novel engine additive comprises a synergistic combination of chemical constituents including an oil soluble molybdenum additive, polyalphaolefin, diester, polytetrafluoroethylene, dispersant inhibitor containing zinc dithiophosphate, mineral oil base stock, viscosity index improvers, and borate ester used in combination with a conventional crankcase lubricant at about a 20 to about a 25% volume/percent. The improved performance of the engine additive in comparison with conventional crankcase lubricants is attributable to the synergistic effect of optimizing the design parameters for each of the individual chemical constituents and combining the chemical constituents according to the present invention to obtain surprisingly good results including improved: wear, oxidation resistance, viscosity stability, engine cleanliness, fuel economy, cold starting, and inhibition of acid formation. The novel engine additive formulation comprises a synergistic combination of compounds, ingredients, or components, each of which alone is insufficient to give the desired properties, but when used in concert give outstanding lubricating properties. Of course, it is contemplated that additional components may be added to the engine additive formulation to enhance specific properties for special applications. | ||||||
139 | 多金属の金属加工用の高性能水希釈性の潤滑添加剤 | JP2016568477 | 2015-02-09 | JP6377179B2 | 2018-08-22 | ビンジマン ロン; パーマー チャールズ フランシス ジュニア; タナー ジェイムズ ティー.; ウィッカー カルビン エム. ジュニア |
140 | 切削加工補助潤滑材及び切削加工方法 | JP2017533118 | 2016-08-04 | JP6256865B2 | 2018-01-10 | 松山 洋介; 小柏 尊明 |