Abstract: A laser welding method is usable to weld a material containing copper as a main component. The laser welding method includes heating the material by irradiation with a first laser light and welding the material by irradiation of a portion, which has been irradiated with the first laser light, of the material with a second laser light with which an energy absorption rate of the copper contained in the material increases by an increase in a temperature of the material. A wavelength of the first laser light is 400 nm to 470 nm.

Abstract: A vehicle interior component includes a base member, a cover member, and an adhesive layer applied to the base member or the cover member. The cover member and the base member are attached via the adhesive layer. On corners of the base member and in the vicinity of the corners, the base member includes non-adhesive portions where an adhesive is not applied.

Abstract: A vehicle interior component includes a base member, a cover member, and an adhesive layer applied to the base member or the cover member. The cover member and the base member are attached via the adhesive layer. On corners of the base member and in the vicinity of the corners, the base member includes non-adhesive portions where an adhesive is not applied.

Abstract: A method of manufacturing a ferrous oxide nanoparticle includes a water removing step raising temperature of a solution containing an iron oxide, an organic acid dissolving the iron oxide, and a first solvent to a first temperature and removing water in the solution, a second temperature maintaining step raising the first temperature to a second temperature and maintaining the second temperature, and a particle extracting step extracting the ferrous oxide nanoparticle from the solution after the second temperature maintaining step.

Abstract: A processor includes: a plurality of pipelines including a first pipeline and a second pipeline and configured to pipeline-process vector instructions including load instructions with respect to a memory, and when an instruction issuance controller configured to decode a vector instruction read out from an instruction memory and issue instructions to the pipelines issues a first load instruction with respect to a first region of a memory to the first pipeline and a second load instruction with respect to the first region of the memory is being processed in the second pipeline, a processing order in the first load instruction in the first pipeline is changed on the basis of an offset value determined according to a number of cycles that have been processed already in the second load instruction so that an access address of the first load instruction matches an access address of the second load instruction.

Abstract: In a vector processing device, a data dependence detecting unit detects a data dependence relation between a preceding instruction and a succeeding instruction which are inputted from an instruction buffer, and an instruction issuance control unit controls issuance of an instruction based on a detection result thereof. When there is a data dependence relation between the preceding instruction and the succeeding instruction, the instruction issuance control unit generates a new instruction equivalent to processing related to a vector register including the data dependence relation with the succeeding instruction in processing executed by the preceding instruction and issues the new instruction between the preceding instruction and the succeeding instruction, and thereby a data hazard can be avoided between the preceding instruction and the succeeding instruction without making a stall occur.

Abstract: Provided is a near-infrared shielding coating agent containing: (1) an inorganic near-infrared absorbing agent; (2) a tetrafunctional silicon compound represented by general formula Si(OR1)4, a hydrolysate thereof, and/or a condensation polymerization product thereof; (3) a trifunctional silicon compound represented by general formula R2Si(OR3)3, a hydrolysate thereof, and/or a condensation polymerization product thereof; (4) a silane coupling agent represented by one of the general formulas Si(X)3—Y or R4Si(X)2—Y, a hydrolysate thereof, and/or a condensation polymerization product thereof; and (5) a solvent. This coating agent allows the formation, at an ordinary temperature between 5° C. and 40° C., of a near-infrared shielding film that has a high film hardness and is not prone to cracks.

Abstract: On each block side face of the blocks of a V-belt for transmitting high load, a ratio of a dimension extending in a belt thickness direction from a buried cord center line of a corresponding tension band to an upper end of an upper pulley-contact face to a dimension extending in the belt thickness direction from the buried cord center line to a lower end of the upper pulley-contact face is larger than or equal to 4.0, and a dimension extending in the belt thickness direction from the buried cord center line to a middle of the upper pulley-contact face is smaller than or equal to 2.3 mm.

Abstract: On each block side face of the blocks of a V-belt for transmitting high load, a ratio of a dimension extending in a belt thickness direction from a buried cord center line of a corresponding tension band to an upper end of an upper pulley-contact face to a dimension extending in the belt thickness direction from the buried cord center line to a lower end of the upper pulley-contact face is larger than or equal to 4.0, and a dimension extending in the belt thickness direction from the buried cord center line to a middle of the upper pulley-contact face is smaller than or equal to 2.3 mm.

Abstract: A method of manufacturing a ferrous oxide nanoparticle includes a water removing step raising temperature of a solution containing an iron oxide, an organic acid dissolving the iron oxide, and a first solvent to a first temperature and removing water in the solution, a second temperature maintaining step raising the first temperature to a second temperature and maintaining the second temperature, and a particle extracting step extracting the ferrous oxide nanoparticle from the solution after the second temperature maintaining step.

Abstract: A height-measuring device (100) in which the focal position of an image-forming optical system (20) is moved in relative fashion in the direction of an optical axis with respect to an object (10) to be measured; scanning is performed; images of the object (10) to be measured, which are formed by the image-forming optical system (20), are obtained in order; and the focal position for individual pixels of the images is found, thereby yielding a relative height value of the object to be measured (10) at positions corresponding to the pixels; wherein a second function (g) is defined on the basis of a first function (f) fitted to a numerical value sequence comprising a coordinate value on the optical axis and a light intensity value for the pixels of a plurality of the images obtained by the scanning, or the coordinate value and a numerical value obtained by processing the light intensity value; and positions on the optical axis at which a correlation value between the numerical value sequence and the second funct

Abstract: On each block side face of the blocks of a V-belt for transmitting high load, a ratio of a dimension extending in a belt thickness direction from a buried cord center line of a corresponding tension band to an upper end of an upper pulley-contact face to a dimension extending in the belt thickness direction from the buried cord center line to a lower end of the upper pulley-contact face is larger than or equal to 4.0, and a dimension extending in the belt thickness direction from the buried cord center line to a middle of the upper pulley-contact face is smaller than or equal to 2.3 mm.

Abstract: A shape measuring device comprises a high speed image processor for extracting one target image and at least one reference image other than the target image from among the plurality of images, and for causing a digital operator to act on the target image and the reference image to calculate local degrees of focusing for each extracted pair of the target image and the reference image on a pixel by pixel basis for the target image; and a control computer for finding the surface height of the measurement object on the basis of the maximum relative movement position of each pixel from among a plurality of the local degrees of focusing calculated on a pixel by pixel basis.

Abstract: A memory controller includes: a first generating unit that generates a read-address to read a data element sequence having a plurality of data elements from a bank of a memory; a second generating unit that generates a position signal indicating a position of a data element to be selected from the data element sequence, and an order signal indicating a storing order for storing the data element to be selected into a register; and a selector unit that selects, according to the position signal, the data element to be selected from the data element sequence read out from each of the plurality of the banks, and stores the selected data element in the storing order indicated by the order signal into the register, wherein the data element stored in the register is processed in the storing order by a vector processor.

Abstract: A fuel cell system of the present invention includes a fuel cell (3); a water passage (8, 10, 12, 15, 17, 18); an electric heater (19) configured to heat the water passage; a water-related temperature detector (20); a first abnormality detector (22, etc.) configured to detect first abnormalities; a second abnormality detector (28, etc.) configured to detect second abnormalities; and a controller (21), and the controller is configured to stop an operation of the fuel cell system when the first abnormality is detected by the first abnormality detector or when the second abnormality is detected by the second abnormality detector. In a case where the fuel cell system stops since the second abnormality is detected by the second abnormality detector, the controller causes the electric heater (19) to carry out an operation as an antifreezing operation when the water-related temperature detector detects a temperature that is not more than a predetermined threshold.

Abstract: Provided is a near-infrared shielding coating agent containing: (1) an inorganic near-infrared absorbing agent; (2) a tetrafunctional silicon compound represented by general formula Si(OR1)4, a hydrolysate thereof, and/or a condensation polymerization product thereof; (3) a trifunctional silicon compound represented by general formula R2Si(OR3)3, a hydrolysate thereof, and/or a condensation polymerization product thereof; (4) a silane coupling agent represented by one of the general formulas Si(X)3-Y or R4Si(X)2-Y, a hydrolysate thereof, and/or a condensation polymerization product thereof; and (5) a solvent. This coating agent allows the formation, at an ordinary temperature between 5° C. and 40° C., of a near-infrared shielding film that has a high film hardness and is not prone to cracks.

Abstract: A memory controller includes: a first generating unit that generates a read-address to read a data element sequence having a plurality of data elements from a bank of a memory; a second generating unit that generates a position signal indicating a position of a data element to be selected from the data element sequence, and an order signal indicating a storing order for storing the data element to be selected into a register; and a selector unit that selects, according to the position signal, the data element to be selected from the data element sequence read out from each of the plurality of the banks, and stores the selected data element in the storing order indicated by the order signal into the register, wherein the data element stored in the register is processed in the storing order by a vector processor.

Abstract: A shape measuring device comprises a high speed image processor for extracting one target image and at least one reference image other than the target image from among the plurality of images, and for causing a digital operator to act on the target image and the reference image to calculate local degrees of focusing for each extracted pair of the target image and the reference image on a pixel by pixel basis for the target image; and a control computer for finding the surface height of the measurement object on the basis of the maximum relative movement position of each pixel from among a plurality of the local degrees of focusing calculated on a pixel by pixel basis.

Abstract: A fuel cell system comprising: a fuel cell (1); a cooling water tank (7) and a cooling water circulation passage (32); a hot water tank (10) and a hot water circulation passage (31); a heat exchanger (9); drain valves (25) to (27); temperature sensors (17), (18), (20); and a controller (41), wherein the controller selects circulation of at least either cooling water in the cooling water circulation passage or hot water in the hot water circulation passage, or alternatively selects water discharge by opening the drain valves, based on the water temperatures detected by the temperature sensors during suspension of the power generation of the fuel cell.

Abstract: A fuel cell system of the present invention comprises a fuel cell (13), a load value detecting means (16) configured to detect a load value of a load of electric power or heat which is generated by equipment (14) supplied with the electric power or the heat from the fuel cell system, a load value storage means (17) configured to store a history of the load value which is detected by the load value detecting means (16), a load value predicting means (18) configured to predict a load value which is going to be generated, based on the history of the load value, and to store the predicted load value as load value data, and scheduled start-up time of a fuel cell (13) is decided based on the load value data.