Abstract: A friction stir welding apparatus includes a welding tool that includes a shoulder and a probe supported by the shoulder, is inserted into a plurality of welding target members, and moves while rotating to weld the plurality of welding target members, a spindle motor that is coupled to the welding tool to rotate the welding tool in a predetermined direction, a welding head that supports the spindle motor, and an apparatus body that supports the welding head, applies a drive signal to the spindle motor, and moves the welding tool along a welding line while rotating the welding tool.

Abstract: A friction stir welding apparatus includes a welding tool that includes a shoulder and a probe supported by the shoulder, is inserted into a plurality of welding target members, and moves while rotating to weld the plurality of welding target members, a spindle motor that is coupled to the welding tool to rotate the welding tool in a predetermined direction, a welding head that supports the spindle motor, and an apparatus body that supports the welding head, applies a drive signal to the spindle motor, and moves the welding tool along a welding line while rotating the welding tool.

Abstract: Method for producing eutectic copper-iron alloy in which crystal grain fragments containing iron are dispersed in a copper matrix, includes: a charging step charging a first melting furnace (MF) and second MF respectively with electrolytic-copper and pure iron grain fragments; molten copper (MC) deoxidizing step heating electrolytic-copper to at least melting-point in the first MF, melting and deoxidizing the electrolytic-copper; molten iron (MI) deoxidizing step heating pure iron to at least melting-point in the second MF, melting and deoxidizing pure iron; MI transfer step increasing the MI temperature generated in the second MF; transferring the MI to a primary reaction furnace; MC transfer step increasing the MC temperature in the first MF to at least the iron melting-point; transferring the MC to the primary reaction furnace; and a reaction step causing a crystallization reaction between copper in the MC and iron in the MI in the primary reaction furnace.

Abstract: Method for producing eutectic copper-iron alloy in which crystal grain fragments containing iron are dispersed in a copper matrix, includes: a charging step charging a first melting furnace (MF) and second MF respectively with electrolytic-copper and pure iron grain fragments; molten copper (MC) deoxidizing step heating electrolytic-copper to at least melting-point in the first MF, melting and deoxidizing the electrolytic-copper; molten iron (MI) deoxidizing step heating pure iron to at least melting-point in the second MF, melting and deoxidizing pure iron; MI transfer step increasing the MI temperature generated in the second MF; transferring the MI to a primary reaction furnace; MC transfer step increasing the MC temperature in the first MF to at least the iron melting-point; transferring the MC to the primary reaction furnace; and a reaction step causing a crystallization reaction between copper in the MC and iron in the MI in the primary reaction furnace.

Abstract: As an imaging marker for generating suitable contrasts in images taken through a plurality of medical diagnostic imaging techniques, a liquid containing a transition metal belonging to any of the fifth to seventh periods of the periodic table or a compound thereof in high concentration and/or high density or a composition containing the liquid is provided. Use of the composition easily generates a suitable contrast in any of the plurality of medical diagnostic imaging techniques.

Abstract: A process for producing an aldehyde, which comprises a reaction step of producing an aldehyde by reacting an olefinic compound with carbon monoxide and hydrogen in the presence of a rhodium complex catalyst comprising at least rhodium and an organic phosphite in a reaction zone, a separation step of obtaining a catalyst solution containing the rhodium complex catalyst by separating the aldehyde from a reaction solution taken from the reaction zone, and a recycling step of recycling the catalyst solution into the reaction zone, wherein the aldehyde is separated from the reaction solution in such a manner as to make an aldehyde concentration from 0.5 to 99 wt % in the catalyst solution.

Abstract: A process for producing an aldehyde, which comprises a reaction step of producing an aldehyde by reacting an olefinic compound with carbon monoxide and hydrogen in the presence of a rhodium complex catalyst comprising at least rhodium and an organic phosphite in a reaction zone, a separation step of obtaining a catalyst solution containing the rhodium complex catalyst by separating the aldehyde from a reaction solution taken from the reaction zone, and a recycling step of recycling the catalyst solution into the reaction zone, wherein the aldehyde is separated from the reaction solution in such a manner as to make an aldehyde concentration from 0.5 to 99 wt % in the catalyst solution.

Abstract: A process for producing an aldehyde, which comprises a reaction step of producing an aldehyde by reacting an olefinic compound with carbon monoxide and hydrogen in the presence of a rhodium complex catalyst comprising at least rhodium and an organic phosphite in a reaction zone, a separation step of obtaining a catalyst solution containing the rhodium complex catalyst by separating the aldehyde from a reaction solution taken from the reaction zone, and a recycling step of recycling the catalyst solution into the reaction zone, wherein the aldehyde is separated from the reaction solution in such a manner as to make an aldehyde concentration from 0.5 to 99 wt % in the catalyst solution.

Abstract: A method for producing an unsaturated alcohol having a chain structure formed by oligomerization of a conjugated alkadiene, which comprises reacting a conjugated alkadiene and water in the presence of carbon dioxide by means of a palladium compound and a phosphorus compound having at least one trivalent phosphorus-oxygen single bond, as catalyst.

Abstract: A method for producing an unsaturated alcohol having a chain structure formed by oligomerization of a conjugated alkadiene, which comprises reacting a conjugated alkadiene and water in the presence of carbon dioxide by means of a palladium compound and a phosphorus compound having at least one trivalent phosphorus-oxygen single bond, as catalyst.

Abstract: A printing device of the type for printing a strip-like printing article having a printing impression roller which is movable forwards while rotating in one direction and backwards while rotating in the opposite direction, along a line perpendicular to the direction of feeding a strip-like printing article is provided with a slide base which is slidable along rails which extend in a direction perpendicular to the direction of feeding of the printing article. Ink tanks and a roller train are mounted on the slide base. The roller train includes an ink fountain roller, a duct roller whose peripheral surface is in contact with the ink fountain roller, a stationary metallic roller whose peripheral surface is in contact with the duct roller, a first ink distribution roller whose peripheral surface is in contact with the metallic roller, and a second ink distribution roller whose peripheral surface is in contact with the first ink distribution roller.

Abstract: The disclosure is a process for producing an alkadienol, which comprises reacting a conjugated alkadiene and water in the presence of carbon dioxide using a palladium compound and a phosphine compound as catalyst, the reaction being carried out with a free phosphine compound present in the reaction solution.

Abstract: A method for producing octadienols, which comprises reacting 1,3-butadiene with water in the presence of a palladium compound, a phosphine compound and carbon dioxide, wherein a compound of the formula (I): ##STR1## wherein each of R.sup.1, R.sup.5 and R.sup.9 which may be the same or different, is a hydrocarbon group, and each of R.sup.2, R.sup.3, R.sup.4, R.sup.6, R.sup.7, R.sup.8, R.sup.10, R.sup.11 and R.sup.12 which may be the same or different, is hydrogen or a substituent, provided that at least one of them is an electron donative substituent, is used as the phosphine compound.

Abstract: A method for producing octadienols, which comprises reacting 1,3-butadiene with water in the presence of a palladium compound, a phosphine compound and carbon dioxide, wherein a compound of the formula (I): ##STR1## wherein each of R.sup.1, R.sup.5 and R.sup.9 which may be the same or different, is a hydrocarbon group, and each of R.sup.2, R.sup.3, R.sup.4, R.sup.6, R.sup.7, R.sup.8, R.sup.10, R.sup.11 and R.sup.12 which may be the same or different, is hydrogen or a substituent, provided that at least one of them is an electron donative substituent, is used as the phosphine compound.