Abstract: A polyamide resin composition which can improve heat resistance and water absorbency while suppressing the deterioration of processability is provided. Provided is a polyamide resin composition having an aromatic polyamide resin and an epoxy group-containing phenoxy resin having an epoxy group in the molecule of the phenoxy resin, wherein the content of the epoxy group-containing phenoxy resin is 30 to 50% by mass.

Abstract: A laminate sheet that can be easily produced together with improving the heat resistance and the water absorbency. Provided is a laminate sheet prepared by laminating plural sheet materials by a resin composition, wherein the resin composition is comprised of an aromatic polyamide resin and an epoxy group-containing phenoxy resin having an epoxy group in the molecule, and the resin composition is a polyamide resin composition that contains 30 to 50% by mass of the epoxy group-containing phenoxy resin.

Abstract: The first cold air flow door 26 and the first hot air flow door 24 for adjusting the blowout air temperature are arranged in the first air passage, and the second cold air flow door 27 and the second hot air flow door 25 for adjusting the blowout air temperature are arranged in the second air passage. When a larger target air flow volume between the target air flow volume on the first air passage side and the target air flow volume on the second air passage side is selected so as to determine an air flow volume of the blower, in an air passage to which the smaller target air flow volume is applied, while the ratio of the cold air flow volume to the hot air flow volume is being maintained constant, the passage opening area is throttled by the cold air flow door and the hot air flow door.

Abstract: This invention provides a method to produce an electrode sheet adaptable to high-temperature drying and to charge and discharge under high voltage, by coating a collector with a slurry which comprises electrode active material, electroconductive agent, binder and solvent, and then drying the same, wherein meta-aramid is used as binder, and wherein thus dried electrode sheet is compressed.

Abstract: A polyamide resin composition which can improve heat resistance and water absorbency while suppressing the deterioration of processability is provided. Provided is a polyamide resin composition having an aromatic polyamide resin and an epoxy group-containing phenoxy resin having an epoxy group in the molecule of the phenoxy resin, wherein the content of the epoxy group-containing phenoxy resin is 30 to 50% by mass.

Abstract: This invention discloses a method for producing an electrode sheet adapted to high-temperature drying and to charge and discharge under high voltage, comprising applying onto a collector a slurry which comprises an electrode active material, electroconductive agent, binder and solvent, using as the binder fibrid of meta-aramid, and pressing the electrode sheet.

Abstract: A laminate sheet that can be easily produced together with improving the heat resistance and the water absorbency. Provided is a laminate sheet prepared by laminating plural sheet materials by a resin composition, wherein the resin composition is comprised of an aromatic polyamide resin and an epoxy group-containing phenoxy resin having an epoxy group in the molecule, and the resin composition is a polyamide resin composition that contains 30 to 50% by mass of the epoxy group-containing phenoxy resin.

Abstract: The invention provides a separator characterized by a constitution wherein a porous sheet formed of a thermoplastic polymer having a melting point of 200° C. or lower is incorporating a thin sheet material comprising an organic compound substantially having no stable melting point, which is useful for secondary batteries or capacitors having both the shutting-down function and the high temperature shape stability.

Abstract: This invention provides a non-aqueous capacitor having high voltage resistance, energy density and power density, which comprises an electrode unit composed of collectors, electrodes and separators, and an electrolytic solution, which are contained and sealed in a case, in which each of the collectors, electrodes and separators is made of the materials having a melting point or pyrolysis-initiating temperature (where melting point is not expressed) not lower than 280° C., and the electrode unit is dried after its assembling, at a temperature not lower than the lowest of the melting points or pyrolysis-initiating temperatures of the materials constituting the electrode unit, by 100° C.

Abstract: An air conditioner for a vehicle is provided with an air conditioning unit for blowing conditioned air to a passenger compartment of the vehicle, multiple seat air conditioning units for respectively controlling temperatures of seats of the vehicle, and a control unit for controlling the air conditioning unit and the seat air conditioning units. The larger the difference between a target blowing-out temperature of the air conditioning unit and a compartment setting temperature of the passenger compartment, the larger the degree of influence of the target blowing-out temperature on a seat target blowing-out temperature in the calculation of the seat target blowing-out temperature, based on which the seat air conditioning unit is controlled.

Abstract: A composite sheet having a layer structure of at least two or more layers in which a porous sheet layer of a thermoplastic polymer having at least a melting point of not higher than 200° C. and a nonwoven fabric-like sheet layer containing at least one component of a fibrid, a short fiber or a fibrillated pulp of an organic compound not substantially having a stable melting point are stacked, the composite sheet being able to be used for condensers, capacitors and batteries, exhibiting a sufficient effect against high energy and large outputs and being suitable as a separator for secondary batteries or capacitors having both shutdown function and high-temperature shape stability.

Abstract: The invention provides an aramid thin sheet material comprising two components of aramid staple fibers and fibrillated aramid, or said two components and aramid fibrid, in particular, characterized by satisfying both of the following expressions (1) and (2): [internal resistance] (?m)?250 (?m)??expression (1) [Oken-type gas permeability] (sec/100 cm3)?0.5 (sec/100 cm3)??expression (2) wherein the [internal resistance] is a resistance value calculated by the following expression (3): [ internal ? ? ? resistance ? ? ] ? ( ? ? ? ? m ) = [ electrical ? ? ? conductivity ? ? of ? ? ? electrolyic ? ? ? solution ] [ electrical ? ? ? conductivity of ? ? ? electrolytic solution ? - ? injected ? ? thin ? ? ? sheet ? ? ? material ] × [ thickness ? ? of ? ? ? the ? ? ? ? thinsheet ? ? material ] ? ( ? ? ? ? m ) .

Abstract: This invention provides a separator for electrical or electronic parts which is characterized in that the increase ratio in internal resistance of the separator before and after its heat treatment at 300° C. for 45 minutes is within 25%, where the internal resistance is calculated according to the following equation (1): (internal resistance)={(electrical conductivity of electrolytic solution/(electrical conductivity of electrolytic solution-injected separator)}×(thickness of separator)??equation (1) wherein (electrical conductivity when the electrolytic solution is injected into separator) is the electrical conductivity calculated from the AC impedance measured by sandwiching the electrolytic solution-injected separator between two electrodes.

Abstract: This invention provides a separator for electrical and electronic parts with a good electrolyte retention, which is coated with at least one substance selected from ionic substances, hydroxyl group-containing substances and silicon compounds.

Abstract: The first cold air flow door 26 and the first hot air flow door 24 for adjusting the blowout air temperature are arranged in the first air passage, and the second cold air flow door 27 and the second hot air flow door 25 for adjusting the blowout air temperature are arranged in the second air passage. When a larger target air flow volume between the target air flow volume on the first air passage side and the target air flow volume on the second air passage side is selected so as to determine an air flow volume of the blower, in an air passage to which the smaller target air flow volume is applied, while the ratio of the cold air flow volume to the hot air flow volume is being maintained constant, the passage opening area is throttled by the cold air flow door and the hot air flow door.

Abstract: An air conditioner for a vehicle is provided with an air conditioning unit for blowing conditioned air to a passenger compartment of the vehicle, multiple seat air conditioning units for respectively controlling temperatures of seats of the vehicle, and a control unit for controlling the air conditioning unit and the seat air conditioning units. The larger the difference between a target blowing-out temperature of the air conditioning unit and a compartment setting temperature of the passenger compartment, the larger the degree of influence of the target blowing-out temperature on a seat target blowing-out temperature in the calculation of the seat target blowing-out temperature, based on which the seat air conditioning unit is controlled.

Abstract: A core unit of a heat exchanger is composed of a plurality of parallel flat tubes, a plurality of corrugated fins, a support member disposed between two of the corrugated fins and an electric heater disposed inside the support member. The support member has a pair of parallel plates bonded to the corrugated fins at the summits of corrugation of the corrugated fins. The electric heater is composed of a heating element and an insulation member inserted between the heating element and the parallel plates.