Patent application number | Description | Published |
20080213494 | Organic Thin Film Forming Method, Auxiliary Agent For Forming an Organic Thin Film, and Solution For Forming and Organic Thin Film - An organic thin film forming method for forming an organic thin film on a substrate surface comprising: contacting the substrate with a solution for forming an organic thin film obtained from an auxiliary agent for forming an organic thin film obtained by mixing a metal surfactant (1) having at least one hydrolytic group and a compound capable of interacting with the metal surfactant (1), and a metal surfactant (2) having at least one hydrolytic group, in an organic solvent, wherein a solution for forming an organic thin film is used in which the moisture content has been adjusted or maintained to be within a predetermined range; and, an auxiliary agent for forming an organic thin film and a solution for forming an organic thin film used in this method. | 09-04-2008 |
20080290249 | Forming Mold Or Electroforming Mother Die Having Release Layer And Method For Manufacturing The Same - The present invention provides a forming mold or electroforming mother die comprising a mold or mother die, and a release layer composed of an organic thin film on a mold surface or mother die surface which is formed by contacting the mold or mother die with an organic solvent solution comprising a silane surfactant represented by the formula [1] | 11-27-2008 |
20090143498 | PROCESS FOR PREPARING DISPERSED INGEDIENT HAVING METAL-OXYGEN BONDS - A dispersed ingredient having metal-oxygen bonds which is obtained by hydrolyzing a metal alkoxide in an organic solvent in the absence of an acid, a base, and/or a dispersion stabilizer, either with 0.5 to less than 1 mol of water per mol of the metal alkoxide or at −20° C. or lower with 1.0 to less than 2.0 mol of water per mol of the metal alkoxide. In the organic solvent, the dispersed ingredient is stably dispersed without aggregating. Use of the dispersed ingredient enables a thin metal oxide film and a homogeneous organic/inorganic composite to be produced at a temperature as low as 200° C. or below. | 06-04-2009 |
20100221443 | METHOD FOR PRODUCING ORGANIC THIN FILM - An object of the present invention is to provide a method for producing an organic thin film, which enables rapid film formation, and enables a dense organic thin film with minimal impurities to be formed stably, and in a plurality of consecutive repetitions. | 09-02-2010 |
20100313789 | METHOD FOR PRODUCING ORGANIC THIN FILM - A method for producing an organic thin film, which enables rapid film formation, and enables a dense organic thin film with minimal impurities to be formed stably, and in a plurality of consecutive repetitions. Also, a method for producing an organic thin film in which an organic thin film is formed on the surface of a substrate, including bringing the substrate into contact with an organic solvent solution containing a metal-based surfactant having at least one hydrolysable group, and a catalyst capable of interacting with the metal-based surfactant, wherein the water contact within the organic solvent solution is either set or maintained within a predetermined range. | 12-16-2010 |
20110135878 | Dispersoid having metal-oxygen bonds, metal oxide film, and monomolecular film - Dispersoids having metal-oxygen groups that are suitable for the production of metal oxide thin-films at a low temperature of 200° C. or below and for the production of homogeneous organic-inorganic hybrid materials. The dispersoid having metal-oxygen bonds may be obtained by mixing a metal compound having at least three hydrolyzable groups with at least 0.5 mole but less than 2 moles of water per mole of the metal compound in an organic solvent, in the absence of an acid, a base, and/or a dispersion stabilizer, and at a temperature at or below the temperature at which the metal compound begins to hydrolyze, then raising the temperature to at least the temperature at which hydrolysis begins. | 06-09-2011 |
20120082793 | DISPERSOID HAVING METAL-OXYGEN BONDS, METAL OXIDE FILM, AND MONOMOLECULAR FILM - Dispersoids having metal-oxygen groups that are suitable for the production of metal oxide thin-films at a low temperature of 200° C. or below and for the production of homogeneous organic-inorganic hybrid materials. The dispersoid having metal-oxygen bonds may be obtained by mixing a metal compound having at least three hydrolyzable groups with at least 0.5 mole but less than 2 moles of water per mole of the metal compound in an organic solvent, in the absence of an acid, a base, and/or a dispersion stabilizer, and at a temperature at or below the temperature at which the metal compound begins to hydrolyze, then raising the temperature to at least the temperature at which hydrolysis begins. | 04-05-2012 |
20120126448 | FORMING MOLD OR ELECTROFORMING MOTHER DIE HAVING RELEASE LAYER AND METHOD FOR MANUFACTURING THE SAME - A forming mold or electroforming mother die including a mold or mother die, and a release layer composed of an organic thin film on a mold surface or mother die surface which is formed by contacting the mold or mother die with an organic solvent solution including a silane surfactant represented by formula [1] | 05-24-2012 |
Patent application number | Description | Published |
20120177540 | EXHAUST GAS PROCESSING DEVICE - An exhaust gas processing device includes a honeycomb structure in a pillar shape including a honeycomb unit, a catalytic agent, an inorganic mat member, a cylindrical metallic member and an insulating layer. The honeycomb unit includes cell walls to define a plurality of cells which extend from a first end of the honeycomb unit to a second end of the honeycomb unit along a longitudinal direction. The catalytic agent is provided on the cell walls. The inorganic mat member is wound around an outer peripheral surface of the honeycomb structure. The cylindrical metallic member accommodates the honeycomb structure around which the inorganic mat member is wound. The insulating layer has a thickness of about 20 μm to about 400 μm and is densely formed. The insulating layer is provided between an inner surface of the cylindrical metallic member and the inorganic mat member. | 07-12-2012 |
20120177541 | EXHAUST GAS PROCESSING DEVICE - An exhaust gas processing device includes a pillar honeycomb structure, a first inorganic mat member, a first cylindrical metallic member, a second inorganic mat member, a second cylindrical metallic member, and an insulating layer. The insulating layer has a thickness of about 20 μm to about 400 μm and is provided at least one of a first part between an inner surface of the first cylindrical metallic member and the first inorganic mat member, a second part between an outer surface of the first cylindrical metallic member and the second inorganic mat member, and a third part between an inner surface of the second cylindrical metallic member and the second inorganic mat member. | 07-12-2012 |
20120202045 | STRUCTURE AND METHOD OF MANUFACTURING STRUCTURE - A structure includes a base material made of metal and a surface coating layer provided on a surface of said base material. The surface coating layer includes a first layer provided on the surface of said base material and a second layer provided directly or indirectly on the first layer as an outermost layer of said surface coating layer. The first layer contains an amorphous inorganic material. The second layer contains a crystalline inorganic material having a softening point of about 950° C. or higher. | 08-09-2012 |
20140127086 | EXHAUST GAS PROCESSING DEVICE - An exhaust gas processing device includes a first cylindrical metallic member, an inorganic mat member, a second cylindrical metallic member, and an insulating layer. The inorganic mat member is wound around an outer periphery of the first cylindrical metallic member. The second cylindrical metallic member accommodates the first cylindrical metallic member around which the inorganic mat member is wound. The insulating layer have a thickness of about 20 μm to about 400 μm and is provided at at least one of a first part which is an inner surface of the first cylindrical metallic member, a second part between an outer surface of the first cylindrical metallic member and the inorganic mat member, and a third part between an inner surface of the second cylindrical metallic member and the inorganic mat member. | 05-08-2014 |
20140311616 | STRUCTURE AND METHOD OF MANUFACTURING STRUCTURE - A structure includes a base material made of metal to be in a form of a tube and a surface coating layer provided on an inner face of the tube. The surface coating layer includes a first layer provided on the inner face and a second layer provided directly or indirectly on the first layer as an outermost layer of the surface coating layer. The first layer contains an amorphous inorganic material. The second layer contains a crystalline inorganic material having a softening point of about 950° C. or higher. | 10-23-2014 |
20150086436 | EXHAUST GAS PROCESSING DEVICE - An exhaust gas processing device includes a cylindrical metallic member and an insulating layer. The insulating layer has a thickness of about 20 μm to about 400 μm and is densely formed such that no through pores exist in a thickness direction of the insulating layer. The insulating layer is provided on an inner surface of the cylindrical metallic member. | 03-26-2015 |
Patent application number | Description | Published |
20120253602 | VEHICLE CONTROL APPARATUS - A vehicle control apparatus is provided with: braking force applying device ( | 10-04-2012 |
20130226410 | BRAKING CONTROL DEVICE - A braking control apparatus is mounted on a vehicle provided with: a wheel angle varying device capable of changing a wheel angle of at least one of front wheels and rear wheels, independently of steering by a driver for facilitating a change in the wheel angle; a braking force varying device capable of changing a left-right braking force difference of at least one of the front wheels and the rear wheels; and a controlling device for controlling each of the wheel angle varying device and the braking force varying device. The braking control apparatus is provided with: a limiting device for changing a limit of the left-right braking force difference of the at least one of the front wheels and the rear wheels in accordance with whether or not the wheel angle varying device can operate. | 08-29-2013 |
20130253770 | VEHICLE STEERING CONTROL APPARATUS - A vehicle motion control apparatus which is configured to control a motion of a vehicle comprising a plurality of apparatuses, each of which is configured to selectively control a slip angle or a yaw rate, is provided with: a behavior controlling device which is configured to perform behavior control in which a plurality of apparatuses are controlled such that a slip angle and a yaw rate are a set target slip angle and a target yaw rate, respectively; a turning state quantity specifying device which is configured to specify a turning state quantity of the vehicle; and a selecting device which is configured to select at least one of the slip angle and the yaw rate to be prioritized, on the basis of the specified turning state quantity in a case where the behavior control needs to be performed by one of the plurality of apparatuses. The behavior controlling device controls the one apparatus such that the selected one has the target value corresponding to the selected one, in the case where the behavior control needs to be performed by the one apparatus. | 09-26-2013 |
20130261898 | VEHICLE STEERING CONTROL APPARATUS - A vehicle steering control apparatus is provided with: a first setting device for setting a first target steering angle of rear wheels according to a steering wheel operation of a driver; a second setting device for setting a second target steering angle of the rear wheels which does not work with the steering wheel operation by the driver and which is associated with automatic steering; a controlling device for controlling a steering angle of the rear wheels on the basis of the set first and second target steering angles; and a limiting device for limiting an influence of the first target steering angle on the steering angle of the rear wheels in accordance with a driving condition of the vehicle if the set first and second target steering angles have a mutually anti-phase relation, the limiting device limiting an influence of the second target steering angle on the steering angle of the rear wheels in accordance with the driving condition of the vehicle in preference to the first target steering angle if the automatic steering associated with the setting of the second target steering angle suppresses a change in the vehicle state quantity produced in a process of controlling a state controlled variable which is different front the steering angle of the rear wheels. | 10-03-2013 |
20130311045 | VEHICLE STEERING CONTROL APPARATUS - A vehicle steering control apparatus in a vehicle, which is provided with: a tire steer angle varying apparatus which is configured to change a tire steer angle independently of steering wheel operation; and a tire steer angle equivalent value detecting device which is configured to detect a tire steer angle equivalent value corresponding to the tire steer angle, is provided with: a learning device which is configured to learn a steering wheel angle neutral point; an abnormality determining device which is configured to determine whether or not the tire steer angle equivalent value detecting device is in an abnormal state; a disregarding device which is configured to disregard the learned steering wheel angle neutral point if it is determined that the tire steer angle equivalent value detecting device is in the abnormal state; a controlling device which is configured to control the tire steer angle varying apparatus such that the tire steer angle is returned to a tire steer angle neutral point if it is determined that the tire steer angle equivalent value detecting device is in the abnormal state; and an initializing device which is configured to initialize the tire steer angle equivalent value detecting device after the tire steer angle is returned to the tire steer angle neutral point, wherein the leaning device restarts the learning of the steering wheel angle after the tire steer angle equivalent value detecting device is initialized. | 11-21-2013 |
20140039763 | CONTROL APPARATUS FOR VEHICLE - Lane keeping control is ended in accurate timing which does not give an uncomfortable feeling to a driver. In a vehicle | 02-06-2014 |