Abstract: To provide a fluid contact member whose corrosion resistance is particularly further improved than that in the related art. In order to solve this problem, a fluid contact member 10 includes a fluid contact portion 1 configured to be in contact with a fluid, the fluid contact portion 1 has a cobalt-based alloy phase 2 having a dendrite, and a compound phase 3 formed in an arm space of the dendrite and containing chromium carbide, and among a plurality of secondary arms 5 extending from one primary arm 4 constituting the dendrite, an average interval between adjacent secondary arms 5 is 5 ?m or less. At this time, the average interval is preferably 3 ?m or less. Further, the compound phase 3 is preferably formed discontinuously in the dendrite arm space.

Abstract: A control device includes a power storage unit, a balance processing unit, and a control unit. The power storage unit includes a plurality of battery cells, and supplies power to a load. In a case where the load stops, the balance processing unit can execute balance processing of reducing variation in the voltage of each of the plurality of battery cells according to the degree of the variation in the voltage. The control unit generates, for display, a state image indicating the state of the variation according to the degree of the variation.

Abstract: An ultraviolet irradiator irradiates eyewear with an ultraviolet ray. The ultraviolet irradiator includes a base stored in an eyewear case that accommodates the eyewear, an irradiation element fixed to the base and irradiating the eyewear accommodated in the eyewear case with the ultraviolet ray, and a switch for turning on the irradiation element. The base is attachable to and detachable from the eyewear case.

Abstract: A method of predicting deformation of a resin molded article includes: a step of acquiring resin temperature distribution data at the time of forming the resin molded article; a step of creating crystallinity distribution data, corresponding to the resin temperature distribution data, based on a first correlation between a temperature and crystallinity of the resin molded article, which is obtained using an actually measured crystallinity of the resin molded article; a step of creating mechanical property value distribution data, corresponding to the crystallinity distribution data, based on a second correlation between the crystallinity and the mechanical property value of the resin molded article, which is obtained from the actually measured crystallinity and the mechanical property value of the resin molded article; and a step of predicting the deformation of the resin molded article using the resin temperature distribution data and the mechanical property value distribution data.

Abstract: A pre-coated aluminum sheet (10), which is used in a heat sink (1), is characterized in that: an aluminum sheet (20) exhibits a thermal conductivity of equal to or greater than 150 W/m·K; a resin-based film (3) includes a thermosetting resin; the thickness of the resin-based film (3) is 15-200 ?m; the integrated emissivity of the resin-based film (3) in the infrared region having the wavelength of 3-30 ?m is equal to or greater than 0.80 at 25° C.; and, when the minimum temperature that the resin-based film (3) reaches while the heat sink (1) is used is expressed as T1° C., the glass transition temperature of the resin-based film (3) is equal to or below T1+20° C.

Abstract: A pre-coated aluminum sheet, an aluminum sheet, and a heat sink for onboard LED lighting excellent in the heat radiation property are provided. The pre-coated aluminum sheet is used for the heat sink for onboard LED lighting, and is the pre-coated aluminum sheet including an aluminum sheet and a resin-based film. The thermal conductivity of the aluminum sheet is equal to or greater than 150 W/m·K, the resin-based film includes a thermosetting resin and a black pigment composition, and the integrated emissivity of the resin-based film in the infrared region having the wavelength of 3-30 ?m is equal to or greater than 0.80 at 25° C.

Abstract: Disclosed is a system toilet for dogs that can be used without filling an upper receptacle with particulate matter, and that can be easily cleaned. The system toilet for dogs is provided with: an excrement containment receptacle that has an excrement containment section that can contain excrement; and an upper receptacle that has a liquid-permeable bottom surface section and side wall section that rises from the rim of the bottom surface section. The system toilet for dogs is used with a liquid-permeable panel, which is liquid-absorbent, mounted on the top surface of the bottom surface section. The rise angle of the side wall section from the bottom surface section in the upper receptacle is at least 90 degrees, and in the upper receptacle, the bottom surface section and the side wall section are formed integrally without seams.

Abstract: A pet barrier is disclosed. The pet barrier comprises a plurality of hinges. Each of the plurality of hinges a first component configured to engage a second component. The first component comprises one or more projections. The second component comprises a plurality of openings at a plurality of angles. One or more of the plurality of openings are configured to engage and lock the one or more projections at one of the plurality of angles. The pet barrier also comprises a plurality of panels. Each of the plurality of panels are configured to couple to another one of the plurality of panels at one of the plurality of angles via one of the plurality of hinges. The one of the plurality of hinges is locked at the one of the plurality of angles while the one or more of the plurality of openings engage the one or more projections.

Abstract: In an embodiment of the disclosure, a pet restriction device is disclosed. The pet restriction device comprises an entry panel, at least one door located on the entry panel and comprising a door axis, and a locking device. The locking device comprises a handle, two bars, and two receivers. The handle is coupled to the door and located on the opposite side from the door axis. One end of each of the two bars is coupled to the handle. The two receivers are coupled to the entry panel, and each of the two receivers receives one of the two bars.

Abstract: In an embodiment of the disclosure, a pet restriction device is disclosed. The pet restriction device comprises an entry panel, at least one door located on the entry panel and comprising a door axis, and a locking device. The locking device comprises a handle, two bars, and two receivers. The handle is coupled to the door and located on the opposite side from the door axis. One end of each of the two bars is coupled to the handle. The two receivers are coupled to the entry panel, and each of the two receivers receives one of the two bars.