Abstract: A radiographic image processing device includes a radiographic image acquisition unit that acquires a radiographic image taken from a subject using radiation, a region discrimination unit that discriminates a plurality of regions using the radiographic image, a scattered radiation component-estimation section that estimates scattered radiation components of the radiation of each region using scattered radiation component-estimation processing varying for each region, a scattered radiation component-subtraction section that subtracts the scattered radiation components of each region, and an image processing unit that generates a scattered radiation component-subtracted image where the scattered radiation components have been subtracted by sequentially estimating and subtracting the scattered radiation components of each region using the scattered radiation component-estimation section and the scattered radiation component-subtraction section.

Abstract: A discharging nozzle mounted to an aerosol container in which the foamable contents are filled is provided with an inner passage extending in an axial direction of the discharging nozzle, a closing part which closes a top end of the inner passage, and an opening part which opens in a side of the inner passage. Further, an opening inner peripheral surface configuring an opening part is provided with a pair of side surfaces which controls a discharging direction of the foamable contents discharged outside through the opening part from the inner passage.

Abstract: An object of the present invention is to provide: a resin composition in which the specific resistance after curing is low regardless of the type of a thermosetting resin, and furthermore, the specific resistance after curing does not significantly change depending on the content of a copper powder; and a conductive copper paste including the resin composition. There are provided a resin composition including (A) a copper powder having an oxygen content of 0.3% by mass or less, (B) a thermosetting resin, (C) a fatty acid, and (D) an amine or an amine compound, as well as a conductive copper paste containing the resin composition. The (A) component has an average particle size of preferably 1 to 10 ?m.

Abstract: Provided are an ejection member and an aerosol product using the same capable of obtaining a desired shape of an ejection material by suppressing adhesion of the ejection ejection materials to each other. An ejection member to be connected to an aerosol container filled with a foaming content is provided with an expansion chamber for promoting foaming of the foaming content from the aerosol container and a plurality of nozzles for ejecting the foaming content in the expansion chamber to the outside. The expansion chamber is provided with an introduction port for introducing the foaming content from the aerosol container and a delivery port for delivering the foaming content to the nozzle side. The nozzles each have a slit-shaped ejection port. The communication path that communicates the ejection port and the delivery port has a slit-shaped slit portion. A length of the slit portion in the ejection direction is greater than a slit width of the ejection port.

Abstract: Disclosed is an electrostatic chuck including a circular placing region configured to place a processing target object thereon. The placing region includes a bottom surface and a plurality of protrusions configured to protrude from the bottom surface. Further, the plurality of protrusions is formed at a plurality of positions set at a regular interval on each of a plurality of circles set concentrically and at a regular interval around a center of the placing region. Furthermore, among the plurality of positions, a plurality of positions set on each of any two adjacent circles is set not to be positioned on the same straight line extending from the center.

Abstract: Obtained are metal-coated particles able to be used in a resin composition capable of forming the wiring of an electrical circuit and/or electronic circuit having a low possibility of disconnection. The metal-coated particles have a metal coating layer on the surface of titanium oxide, wherein the titanium oxide has a columnar shape having a particle length and a particle diameter and the particle length of the titanium oxide is longer than the particle diameter, and the metal-coated particles have a columnar shape having a particle length and a particle diameter and the particle length of the metal-coated particles is longer than the particle diameter.

Abstract: A rotary electric machine and a turbine system including a housing, and a hydrogen generator arranged into or on the housing. The hydrogen generator electrolytically generates hydrogen from water. The hydrogen generator supplies the hydrogen into the housing.

Abstract: A body thickness estimation unit estimates a body thickness of a subject for each pixel of a radiographic image including a primary ray component and a scattered ray component, on the basis of the radiographic image. A bone part pixel value acquisition unit acquires a bone part pixel value which is a pixel value of a bone region of the subject, on the basis of the radiographic image. An information acquisition unit acquires bone mineral information indicating a bone mineral content of the bone region for each pixel of the bone region on the basis of imaging conditions in a case in which the radiographic image has been acquired, the body thickness for each pixel, and the bone part pixel value.

Abstract: A body thickness estimation unit estimates a body thickness of a subject for each pixel of at least one radiographic image among a plurality of radiographic images each of which includes a primary ray component and a scattered ray component, on the basis of the at least one radiographic image. A bone part pixel value acquisition unit acquires a bone part pixel value which is a pixel value of a bone region of the subject, on the basis of the at least one radiographic image. An information acquisition unit acquires bone mineral information indicating a bone mineral content of the bone region for each pixel of the bone region on the basis of imaging conditions in a case in which the at least one radiographic image has been acquired, the body thickness for each pixel, and the bone part pixel value.

Abstract: A feature amount calculation unit calculates, based on a radiation image acquired by irradiating a photographic subject with radiation, a feature amount of a density of the radiation image. A target density calculation unit calculates, based on the radiation image, a target density for converting the feature amount. An image processing unit performs image processing including gradation processing on the radiation image, such that the feature amount becomes the target density, to acquire a processed radiation image.

Abstract: A density region setting unit sets a specific density region having a preset width with respect to a subject region of a radiation image. A compression processing unit performs a dynamic range compression process with respect to the radiation image on the basis of a first compression amount for compressing at least one of the maximum value or the minimum value among pixel values of the subject region into the specific density region and a preset second compression amount for compressing at least one of a high-density region or a low-density region in the specific density region, to generate a dynamic range compression image.

Abstract: The purpose of the present invention is to provide a conductive copper paste which is curable in an ambient atmosphere, has a long pot life, and, has a low specific resistance even under a high-temperature and short-time curing condition, wherein the specific resistance after curing does not greatly vary depending on a copper powder content. The conductive copper paste provided is characterized by containing (A) a copper powder, (B) a thermosetting resin, (C) a fatty acid that is liquid at normal temperature, and (D) triethanolamine. Preferably, component (B) is a resol-type phenol resin. More preferably, the content of component (B) is 10 to 20 parts by mass with respect to a total of 100 parts by mass of component (A) and component (B).

Abstract: To achieve prevention of cracking at the time of attachment, wide coping with different nail widths for individuals, reduction in manufacturing costs, maintenance of attached state on free edges, and the like. An ingrown nail corrector includes a corrective body, a support hole, and a clamping portion, and is attached to a free edge of a nail to correct the ingrown nail.

Abstract: An object of the present invention is to provide a resin composition suitable for copper pastes, which can be cured in an ambient atmosphere and has a viscosity within an appropriate range and a low specific resistance after curing. This resin composition includes (A) a copper powder, (B) a thermosetting resin, (C) a fatty acid, (D) an amine, and (E) 4-aminosalicylic acid. Preferably, the (B) component is resol-type phenolic resin. More preferably, the (C) component is at least one selected from oleic acid, linoleic acid, linolenic acid, stearic acid, palmitic acid, lauric acid, butyric acid, and propionic acid.

Abstract: Provided are an ejection member and an aerosol product using the same capable of obtaining a desired shape of an ejection material by suppressing adhesion of the ejection ejection materials to each other. An ejection member 20 to be connected to an aerosol container 10 filled with a foaming content is provided with an expansion chamber E for promoting foaming of the foaming content from the aerosol container 10 and a plurality of nozzles 22c for ejecting the foaming content in the expansion chamber E to the outside. The expansion chamber E is provided with an introduction port 21e for introducing the foaming content from the aerosol container 10 and a delivery port 22b for delivering the foaming content to the nozzle 22c side. The nozzles 22c each have a slit-shaped ejection port 22d. The communication path that communicates the ejection port 22d and the delivery port 22b has a slit-shaped slit portion 22e.

Abstract: There is provided a temperature control mechanism comprising: a plurality of combinations of a heater and a thyristor, wherein at least one combination of the heater and the thyristor is provided on a zone-by-zone basis, and wherein an area of an electrostatic chuck for mounting a substrate is divided into a plurality of zones; a power supply configured to supply current to heaters of the plurality of combinations respectively through the thyristors of the plurality of combinations; a pair of filters disposed at a power supply line for supplying electric power from the power supply to the heaters and configured to eliminate high frequency power applied to the power supply.

Abstract: A plasma processing apparatus includes a stage for supporting a target object in a chamber defined by a chamber body. The stage includes a lower electrode, an electrostatic chuck provided on the lower electrode, heaters provided in the electrostatic chuck, and terminals electrically connected to the heaters. A conductor pipe electrically connects a high frequency power supply and the lower electrode and extends from the lower electrode to the outside of the chamber body. Power supply lines supply power from a heater controller to the heaters. Filters partially forming the power supply lines prevent the inflow of high frequency power from the heaters to the heater controller. The power supply lines include wirings which respectively connect the terminals and the filters and extend to the outside of the chamber body through an inner bore of the conductor pipe.

Abstract: Feature amount calculation unit determines that the diagnosis target is a bone portion of a subject, and calculates a feature amount of a density of the radiation image based on a soft region in a radiation image acquired by irradiating a photographic subject with radiation. An image processing unit performs image processing including gradation processing on the radiation image, such that the feature amount becomes the target density, to acquire a processed radiation image.

Abstract: Polymer particles excellent in uniform dispersibility and the use thereof are provided. The polymer particles contain a surfactant, and have a coefficient of variation in the volume-based particle diameter distribution in the range from not less than 13.0% to not more than 25.0%. When 15.0 g of water is added to 5.0 g of the polymer particles so as to disperse the polymer particles in the water by performing a dispersion treatment for 60 minutes using an ultrasonic cleaner, and furthermore when an obtained dispersion liquid is put into a centrifuge tube with an inside diameter of 24 mm so as to be centrifuged, by a centrifugal separator, under conditions that K factor is 6943 and a rotating time is 30 minutes to recover a supernatant, a concentration of non-volatile components in the obtained supernatant is less than 3.5 wt. %.