Abstract: A connector-mounting structure includes a case and a connector mounted on the case. The connector has a connector housing, a terminal, a waterproof elastic member, and a connector holding plate fixed to an inner surface of the case. An outer size of the connector housing is larger than a hole size of a through-hole of the case. The waterproof elastic member has a sealing portion. A size of a recess of the connector holding plate is larger than an outer size of a flange portion of the connector housing. A hole size of a housing insertion hole of the connector holding plate is larger than an outer circumferential size of a main body of the connector housing. An outer circumferential size of the insertion portion is smaller than the hole size of the through-hole.

Abstract: A connector-mounting structure includes a case and a connector mounted on the case. The connector has a connector housing, a terminal, a waterproof elastic member, and a connector holding plate fixed to an inner surface of the case. An outer size of the connector housing is larger than a hole size of a through-hole of the case. The waterproof elastic member has a sealing portion. A size of a recess of the connector holding plate is larger than an outer size of a flange portion of the connector housing. A hole size of a housing insertion hole of the connector holding plate is larger than an outer circumferential size of a main body of the connector housing. An outer circumferential size of the insertion portion is smaller than the hole size of the through-hole.

Abstract: A shielded connector structure includes a shielded wire for connecting a device, a shielded connector, and a metal member provided on the device. The shielded connector includes a terminal fitting, a shield terminal, a housing, and a bolt for fixing the housing to the metal member. The metal member includes a circular insertion hole and a female screw portion. The circular insertion hole includes an inner circumferential projected portion and a cutout portion that divides a part of the inner circumferential projected portion. The housing includes a cylindrical housing main body and a fixing flange portion. The housing main body includes a main body insertion portion inserted into the circular insertion hole and a projection portion which protrudes from an outer circumferential surface of the main body insertion portion in conformity with a position of the inner circumferential projected portion.

Abstract: Method for processing a semiconductor-wafer having a front surface, back surface, and chamfered-portion composed of a chamfered surface on the front surface side, a chamfered surface on the back surface side, and an end face at a peripheral end, including: mirror-polishing of each portion of the chamfered surface on the front surface side, the chamfered surface on the back surface side, the end face, and an outermost peripheral-portion on the front or back surface adjacent to the chamfered surface; wherein the end face mirror-polishing and mirror-polishing of the outermost peripheral-portion on the front or back surface are performed in one step, after step of mirror-polishing the chamfered surface on the front surface side and step of mirror-polishing the chamfered surface on the back surface side; roll-off amount of the outermost peripheral-portion on the front or back surface is adjusted by one step-performed mirror-polishing of the end face and outermost peripheral-portion.

Abstract: There are provided crystals of 2-[4-(2,2-dimethylpropoxy)-3-(1H-1,2,3,4-tetrazol-1-yl)phenyl]-4-methyl-1,3-thiazole-5-carboxylic acid which is useful as a therapeutic agent or prophylactic agent for gout, hyperuricemia and the like.

Abstract: Method for processing a semiconductor-wafer having a front surface, back surface, and chamfered-portion composed of a chamfered surface on the front surface side, a chamfered surface on the back surface side, and an end face at a peripheral end, including: mirror-polishing of each portion of the chamfered surface on the front surface side, the chamfered surface on the back surface side, the end face, and an outermost peripheral-portion on the front or back surface adjacent to the chamfered surface; wherein the end face mirror-polishing and mirror-polishing of the outermost peripheral-portion on the front or back surface are performed in one step, after step of mirror-polishing the chamfered surface on the front surface side and step of mirror-polishing the chamfered surface on the back surface side; roll-off amount of the outermost peripheral-portion on the front or back surface is adjusted by one step-performed mirror-polishing of the end face and outermost peripheral-portion.

Abstract: There are provided crystals of 2-[4-(2,2-dimethylpropoxy)-3-(1H-1,2,3,4-tetrazol-1-yl)phenyl]-4-methyl-1,3-thiazole-5-carboxylic acid which is useful as a therapeutic agent or prophylactic agent for gout, hyperuricemia and the like.

Abstract: A feed additive composition includes a protective agent, lecithin in an amount of 0.05 to 6% by weight relative to a total weight of the composition, a basic amino acid in an amount of at least 40% by weight and less than 65% by weight relative to the total weight of the composition, and water. A method of producing a feed additive composition includes preparing a molten mixture of at least one protective agent, lecithin and at least one basic amino acid, and solidifying the molten mixture by immersing the molten mixture in water or an aqueous liquid. The protective agent includes hydrogenated vegetable oils and/or hydrogenated animal oils having melting points of greater than 50° C. and less than 90° C.

Abstract: A food additive composition for ruminants of the dispersion type and a method of continuously producing the same. This food additive composition for ruminants, which contains 40% by weight or more but less than 65% by weight of a basic amino acid and has rumen bypass properties, is formulated into granules in an arbitrary shape which are scarcely classified when added to a silage or another feed. Thus, attempts have been made to develop a method of producing granules by which the milk yield of a lactation cow can be increased. Namely, it is intended to provide a food additive composition for ruminants which contains at least one protecting agent selected from among a hardened vegetable oil and a hardened animal oil having a melting point higher than 50° C. but lower than 90° C., 0.05 to 6% by weight of lecithin, water and 40% by weight or more but less than 65% by weight of a basic amino acid.

Abstract: A feed additive composition includes a protective agent, lecithin in an amount of 0.05 to 6% by weight relative to a total weight of the composition, a basic amino acid in an amount of at least 40% by weight and less than 65% by weight relative to the total weight of the composition, and water. A method of producing a feed additive composition includes preparing a molten mixture of at least one protective agent, lecithin and at least one basic amino acid, and solidifying the molten mixture by immersing the molten mixture in water or an aqueous liquid. The protective agent includes hydrogenated vegetable oils and/or hydrogenated animal oils having melting points of greater than 50° C. and less than 90° C.

Abstract: A food additive composition for ruminants of the dispersion type and a method of continuously producing the same. This food additive composition for ruminants, which contains 40% by weight or more but less than 65% by weight of a basic amino acid and has rumen bypass properties, is formulated into granules in an arbitrary shape which are scarcely classified when added to a silage or another feed. Thus, attempts have been made to develop a method of producing granules by which the milk yield of a lactation cow can be increased. Namely, it is intended to provide a food additive composition for ruminants which contains at least one protecting agent selected from among a hardened vegetable oil and a hardened animal oil having a melting point higher than 50° C. but lower than 90° C., 0.05 to 6% by weight of lecithin, water and 40% by weight or more but less than 65% by weight of a basic amino acid.

Abstract: A food additive composition for ruminants of the dispersion type and a method of continuously producing the same. This food additive composition for ruminants, which contains 40% by weight or more but less than 65% by weight of a basic amino acid and has rumen bypass properties, is formulated into granules in an arbitrary shape which are scarcely classified when added to a silage or another feed. Thus, attempts have been made to develop a method of producing granules by which the milk yield of a lactation cow can be increased. Namely, it is intended to provide a food additive composition for ruminants which contains at least one protecting agent selected from among a hardened vegetable oil and a hardened animal oil having a melting point higher than 50° C. but lower than 90° C., 0.05 to 6% by weight of lecithin, water and 40% by weight or more but less than 65% by weight of a basic amino acid.

Abstract: A feed additive composition includes a protective agent, lecithin in an amount of 0.05 to 6% by weight relative to a total weight of the composition, a basic amino acid in an amount of at least 40% by weight and less than 65% by weight relative to the total weight of the composition, and water. A method of producing a feed additive composition includes preparing a molten mixture of at least one protective agent, lecithin and at least one basic amino acid, and solidifying the molten mixture by immersing the molten mixture in water or an aqueous liquid. The protective agent includes hydrogenated vegetable oils and/or hydrogenated animal oils having melting points of greater than 50° C. and less than 90° C.

Abstract: A feed additive composition includes a protective agent, lecithin, an acidic or neutral amino acid, and water. A method of producing a feed additive composition includes preparing a molten mixture of a protective agent, lecithin, and an acidic or neutral amino acid, and immersing the molten mixture in water or an aqueous liquid to obtain a solidified mixture. Feed additives may be obtained by such method. The protective agent may include a hydrogenated vegetable oil or hydrogenated animal oil having a melting point of higher than 50° C. and lower than 90° C.

Abstract: A feed additive composition includes a protective agent, lecithin in an amount of 0.05 to 6% by weight relative to a total weight of the composition, a basic amino acid in an amount of at least 40% by weight and less than 65% by weight relative to the total weight of the composition, and water. A method of producing a feed additive composition includes preparing a molten mixture of at least one protective agent, lecithin and at least one basic amino acid, and solidifying the molten mixture by immersing the molten mixture in water or an aqueous liquid. The protective agent includes hydrogenated vegetable oils and/or hydrogenated animal oils having melting points of greater than 50° C. and less than 90° C.

Abstract: A feed additive composition includes a protective agent, lecithin, an acidic or neutral amino acid, and water. A method of producing a feed additive composition includes preparing a molten mixture of a protective agent, lecithin, and an acidic or neutral amino acid, and immersing the molten mixture in water or an aqueous liquid to obtain a solidified mixture. Feed additives may be obtained by such method. The protective agent may include a hydrogenated vegetable oil or hydrogenated animal oil having a melting point of higher than 50° C. and lower than 90° C.

Abstract: Contamination by microorganism of an aqueous proline solution is prevented by adjusting a proline concentration of the solution to 20% (W/W/) or more. Such solutions are useful as fertilizers and/or plan vitalizers. Preservation of the novel solutions are possible over a significant period of time, allowing for more flexibility in the distribution and application of commercial products made from the solutions.

Abstract: A food additive composition for ruminants of the dispersion type and a method of continuously producing the same. This food additive composition for ruminants, which contains 40% by weight or more but less than 65% by weight of a basic amino acid and has rumen bypass properties, is formulated into granules in an arbitrary shape which are scarcely classified when added to a silage or another feed. Thus, attempts have been made to develop a method of producing granules by which the milk yield of a lactation cow can be increased. Namely, it is intended to provide a food additive composition for ruminants which contains at least one protecting agent selected from among a hardened vegetable oil and a hardened animal oil having a melting point higher than 50° C. but lower than 90° C., 0.05 to 6% by weight of lecithin, water and 40% by weight or more but less than 65% by weight of a basic amino acid.

Abstract: The present invention discloses a composition containing a component that is an in vivo intrinsic substance and widely-consumed. The present invention provides a composition containing pipecolic acid in its provided amount of 20 mg/kg to 2000 mg/kg of body weight per day. The composition of the present invention can be used, for example, in the treatment of diabetes.

Abstract: Contamination by microorganism of an aqueous proline solution is prevented by adjusting a proline concentration of the solution to 20% (W/W/) or more. Such solutions are useful as fertilizers and/or plan vitalizers. Preservation of the novel solutions are possible over a significant period of time, allowing for more flexibility in the distribution and application of commercial products made from the solutions.