Abstract: A grain oriented electrical steel sheet includes the texture aligned with Goss orientation. In the grain oriented electrical steel sheet, when (?1 ?1 ?1) and (?2 ?2 ?2) represent deviation angles of crystal orientations measured at two measurement points which are adjacent on the sheet surface and which have an interval of 1 mm, the boundary condition BA is defined as [(?2??1)2+(?2??1)2+(?2??1)2]1/2?0.5°, and the boundary condition BB is defined as [(?2??1)2+(?2??1)2+(?2??1)2]1/2?2.0°, the boundary which satisfies the boundary condition BA and which does not satisfy the boundary condition BB is included.

Abstract: A grain-oriented electrical steel sheet having a metallographic structure after secondary-recrystallized annealing including matrix grains of Goss-oriented secondary recrystallized grains, wherein an existence frequency of Goss-oriented crystal grains having a major diameter of 5 mm or less in the matrix grains is 1.5 grains/cm2 or more and 8 grains/cm2 or less, and the magnetic flux density B8 is 1.88 T or more, and wherein deviation angles from a rolling direction of [001] direction of the Goss-oriented crystal grains having the major diameter of 5 mm or less are 7? or less and 5° or less, in terms of a simple or arithmetic average of ? angle and ? angle, respectively, wherein the ? angle represents an angle formed by a longitudinal direction and a projection of the [001] on a specimen surface, and the ? angle represents a tilt of the [001] out of the specimen surface.

Abstract: The purpose of the present invention is to provide a biological information measurement garment having excellent peel strength between a clothing fabric including spun yarns and an electrode. The garment includes a clothing fabric; and an electrode formed on a skin-side surface of the clothing fabric, the clothing fabric including spun yarns present on the skin-side surface on which the electrode is formed, and each of the spun yarns satisfying a following formula (1): F/(0.8673/?Ne)<4500??(1), wherein F represents a number of fluffy fibers (fibers/10 m) having a length of 1 mm or more, per 10 m of the spun yarn, and Ne represents an English yarn count of the spun yarn.

Abstract: The purpose of the present invention is to provide a biological information measurement garment that reduces the wear discomfort. The garment includes a clothing fabric; and an electrode formed on a skin-side surface of the clothing fabric, the clothing fabric having, in the skin-side surface thereof, an area of 30 cm2 or more that is not covered with the electrode and is exposed, the electrode including a conductive member, and a heat capacity A (J/K) of the conductive member and a heat capacity B (J/K) of the clothing fabric satisfying a following formula (1).

Abstract: A grain oriented electrical steel sheet includes the texture aligned with Goss orientation. In the grain oriented electrical steel sheet, when (?1 ?1 ?1) and (?2 ?2 ?2) represent deviation angles of crystal orientations measured at two measurement points which are adjacent on the sheet surface and which have an interval of 1 mm, the boundary condition BA is defined as [(?2??1)2+(?2??1)2+(?2??1)2]1/2?0.5°, and the boundary condition BB is defined as [(?2??2)2+(?2??1)2+(?2??1)2]1/2?2.0°, the boundary which satisfies the boundary condition BA and which does not satisfy the boundary condition BB is included.

Abstract: An objective is to provide a stretchable conductor sheet which is useful as a material for electrical wiring and electrodes for garment-type electronic devices, the material having excellent durability in terms of washing and durability in terms of perspiration. A fabric provided with an electrode and an electrical wiring, which are formed from a stretchable conductor sheet, is obtained by: providing a film having releasability with a first stretchable conductor layer which is formed from a paste material that uses carbon-based particles as a conductive filler, while using a flexible resin as a binder resin; subsequently forming a second stretchable conductor layer, while using metal-based particles as a conductive filler; laminating a hot melt adhesive layer thereon; superposing the resulting laminate on a fabric after removing unnecessary parts from the laminate by means of partial slits; and subjecting the resulting fabric to hot pressing.

Abstract: Provided is a grain-oriented electrical steel sheet, the core loss characteristics of which have been significantly improved without causing a deterioration in magnetic flux density. The grain-oriented electrical steel sheet: comprises 2.5-3.5% by mass of Si with the balance being Fe and inevitable impurities; has a sheet thickness of 0.18-0.35 mm; has a metallographic structure including matrix grains of Goss-oriented secondary recrystallized grains after secondary-recrystallized annealing, wherein Goss-oriented crystal grains existing in the matrix and having a major (long) diameter of 5 mm or smaller exist in the metallographic structure at a frequency of 1.5 grains/cm2 to 8 grains/cm2; and has a magnetic flux density B8 of 1.88T or greater.

Abstract: An objective is to provide a stretchable conductor sheet which is useful as a material for electrical wiring and electrodes for garment-type electronic devices, the material having excellent durability in terms of washing and durability in terms of perspiration. A fabric provided with an electrode and an electrical wiring, which are formed from a stretchable conductor sheet, is obtained by: providing a film having releasability with a first stretchable conductor layer which is formed from a paste material that uses carbon-based particles as a conductive filler, while using a flexible resin as a binder resin; subsequently forming a second stretchable conductor layer, while using metal-based particles as a conductive filler; laminating a hot melt adhesive layer thereon; superposing the resulting laminate on a fabric after removing unnecessary parts from the laminate by means of partial slits; and subjecting the resulting fabric to hot pressing.

Abstract: The purpose of the present invention is to provide an efficient training system by obtaining biological information, converting the biological information into information indicating a mental state, a physiological state, and giving a feedback to a subject without giving a sense of discomfort to the subject. Provided is a biological information presentation system having a garment-type biological information measuring apparatus that includes at least fabric having a 20% elongation stress of 20 N or less, the garment pressure is 0.1 kPa or more and 1.5 kPa or less, and the skin contact-type electrode is provided at a portion in which a garment pressure is 0.3 kPa or more. The garment-type biological information measuring apparatus is worn on the subject, physiological information and mental information are obtained from the obtained biological information, results thereof are presented to a terminal device, and actions are presented on the basis of the results, thereby achieving efficient training.

Abstract: A transmission device includes a first substrate on which a heat generation component is arranged, a heat sink that is placed on the heat generation component, a second substrate that is arranged above a surface of the first substrate on which the heat generation component is arranged and a pressing mechanism that presses the heat sink against the heat generation component arranged on the first substrate from the second substrate side.

Abstract: A film forming method of forming a gallium oxide film doped with fluorine on a base body includes supplying a mist of a solution in which a gallium compound and a fluorine compound are dissolved to a surface of the base body while heating the base body. In this film forming method, the gallium oxide film doped with fluorine is generated on the surface of the base body. In this film forming method, the gallium oxide film doped with fluorine can be suitably formed on the surface of the base body.