Abstract: A flexible laminated sheet manufacturing method includes thermocompression-bonding an insulation film formed of a liquid crystal polymer onto a metal foil between endless belts to form a flexible laminated sheet. The thermocompression bonding includes heating the flexible laminated sheet so that the maximum temperature of the sheet is in the range from a temperature that is 45° C. lower than the melting point of the liquid crystal polymer to a temperature that is 5° C. lower than the melting point. The thermocompression bonding also includes slowly cooling the flexible laminated sheet so that an exit temperature, which is a temperature of the sheet when transferred out of the endless belts, is in the range from a temperature that is 235° C. lower than the melting point of the liquid crystal polymer to a temperature that is 100° C. lower than the melting point.

Abstract: The present invention provides a chargeable sheath/core-structured fiber that contains a polypropylene-based resin as a main resin, wherein the sheath part contains (a) a carboxylic anhydride-modified polyolefin and (b) at least one antioxidant selected from the group consisting of a combined antioxidant a phenolic antioxidant and a phosphorus-based antioxidant, and sulfur-based antioxidants; and (c) an oil containing a polyoxyalkylene alkyl ether represented by the general formula (I) as a finishing oil is deposited on the outer surface of the sheath part, and that can satisfy heat resistance and charge retainability. (In the formula, R1 represents a saturated or unsaturated aliphatic hydrocarbon group having 10 to 30 carbon atoms; R2 represents a hydrogen atom or a methyl group; and k is an integer of 1 to 4.

Abstract: Provided is a hollow inorganic particle having excellent strength despite having high porosity. Provided is a hollow inorganic particle including an outer shell, the thinnest part of the outer shell/the thickest part of the outer shell being 0.80 or more. The hollow inorganic particle according to the present technology can be produced by a production method including: a coating step of coating core particles made of an organic polymer with a silicone-based compound; and a core particle removal step of removing the core particles. The coating step includes: a dispersant addition step of adding a dispersant to a core particle dispersion; and, after the dispersant addition step, a surfactant addition step of adding a cationic surfactant.

Abstract: Systems and methods for operating a vending machine and/or kiosk. The methods comprise: detecting a presence of a person in a seat of the vending machine; obtaining a full or partial body heat map for the person that was created based on sensor data generated by at least one sensor of the vending machine or at least one sensor located in proximity to the vending machine (the full or partial heat map showing relative temperatures of different parts of a body of the person); selecting at least one vending service parameter for the vending machine using information obtained based on the full or partial body heat map; and causing the vending machine to provide the person with a vending service in accordance with the at least one vending service parameter that was selected.

Abstract: Disclosed is a black powder comprising silica particles that contain carbon. Each of the silica particles is single-layered. The content of carbon contained in the surfaces of the silica particles measured by an X-ray photoelectron spectroscopy is 1% by mass or less.

Abstract: Provided are a method for producing a drawn conjugated fiber, capable of producing a conjugated fiber having a high strength and a thin fineness, and a drawn conjugated fiber. A drawn conjugated fiber is produced by performing a spinning step of obtaining an undrawn fiber having a core-sheath structure in which a core material is a resin containing, as a main component, a crystalline propylene polymer and a sheath material is a resin containing, as a main component, an olefin polymer having a melting point lower than that of the core material, by means of melt-spinning (step S1); and a drawing step of drawing the undrawn fiber (step S2).

Abstract: The present invention provides organic-inorganic composite particles of which the creep deformation is further suppressed; and a method for producing the same. Organic-inorganic composite particles 10 include a compound having a siloxane bond and has a particle diameter d0, and when a load is applied such that an amount of displacement Ds satisfies 0.08d0?Ds?0.15d0 and is held for 180 seconds, conditions of the following Formulae (1) and (2) are satisfied: (D180?Ds)/d0?1%??Formula(1); and (Dmax?Ds)/d0?1%??Formula (2), wherein d0 is an average particle diameter, D180 is an amount of displacement of the particle diameter after 180 seconds of application of the load, and Dmax is the maximum amount of displacement of the particle diameter during the 180 seconds.

Abstract: The present invention can provide a fiber-reinforced expanded particle molded article having a reinforcing material fused and integrated with the surface of an expanded molded article, wherein the reinforcing material is a fabric or a braided product produced by weaving a linear composite material produced by melting and integrating a thermoplastic fiber comprising a low-melting component fiber and a high-melting component fiber, as two or more threads selected from the group consisting of a warp, a weft and a slant thread, the fiber-reinforced expanded particle molded article exhibiting an excellent reinforcing effect; and a method for economically producing the molded article by in-mold molding with a small number of steps.

Abstract: There is provided a wound thread package that is unlikely to cause problems such as cob-webbing and collapse at the time of unwinding even when the wound thread is a multi-filament thread or tape-like thread, and a manufacturing method for the same. To manufacture a wound thread package 1 by winding a plurality of multi-filament threads or tape-like threads having a total fineness of 100 to 6400 dtex per thread around a bobbin 2 by a traverse method, the threads constituting a thread layer 3 are arranged at intervals therebetween and wound with the same in traverse width w and at different traverse reverse positions.

Abstract: The present invention provides organic-inorganic composite particles of which the creep deformation is further suppressed; and a method for producing the same. Organic-inorganic composite particles 10 include a compound having a siloxane bond and has a particle diameter d0, and when a load is applied such that an amount of displacement Ds satisfies 0.08d0?Ds?0.15d0 and is held for 180 seconds, conditions of the following Formulae (1) and (2) are satisfied: (D180?Ds)/d0?1%??Formula(1); and (Dmax?Ds)/d0?1%??Formula (2), wherein d0 is an average particle diameter, D180 is an amount of displacement of the particle diameter after 180 seconds of application of the load, and Dmax is the maximum amount of displacement of the particle diameter during the 180 seconds.

Abstract: Provided are a method for producing a drawn conjugated fiber, capable of producing a conjugated fiber having a high strength and a thin fineness, and a drawn conjugated fiber. A drawn conjugated fiber is produced by performing a spinning step of obtaining an undrawn fiber having a core-sheath structure in which a core material is a resin containing, as a main component, a crystalline propylene polymer and a sheath material is a resin containing, as a main component, an olefin polymer having a melting point lower than that of the core material, by means of melt-spinning (step S1); and a drawing step of drawing the undrawn fiber (step S2). During the production, a fineness of the undrawn fiber is adjusted to 1.5 dTex or less, and, in the spinning step, a melt flow rate of the core material discharged from the spinneret is adjusted to 70 to 170 g/10 minutes at 230° C. and a load of 21.