A method for producing a soldered connection between at least two components is provided, in which the components are heated for melting a solder in a soldering area. The heating of the soldering area and/or the supply of solder to the soldering area is realized depending on the temperature which is determined by non-contact detection of heat radiation emitted from at least one temperature measurement zone of one of the components. In order to improve the method such that the emissivity of the at least one temperature measurement zone can be increased with high process reliability and with at most a slight adverse effect on the electrical connection between the electrical components, it is proposed that the at least one temperature measurement zone be locally heated for increasing its emissivity. Furthermore, an electrical plug-in connector for producing a soldered connection and use of such a plug-in connector are proposed.

A method for producing a soldered connection between at least two components is provided, in which the components are heated for melting a solder in a soldering area. The heating of the soldering area and/or the supply of solder to the soldering area is realized depending on the temperature which is determined by non-contact detection of heat radiation emitted from at least one temperature measurement zone of one of the components. In order to improve the method such that the emissivity of the at least one temperature measurement zone can be increased with high process reliability and with at most a slight adverse effect on the electrical connection between the electrical components, it is proposed that the at least one temperature measurement zone be locally heated for increasing its emissivity. Furthermore, an electrical plug-in connector for producing a soldered connection and use of such a plug-in connector are proposed.

Disclosed is a method for producing rotary sputtering target assemblies that are bonded to a suitable backing support. The bonding between the sputtering target body and the backing support is achieved by controlled heating under a suitable temperature, preferably with the help of conductive layer between the induction heater and internal target body that is inductively heated in a manner that enhances axial and radial gradient heating. A non-adhesive protective wrap can also be placed at the target body such as between the conductive wrap and target body.

Disclosed is a method for producing rotary sputtering target assemblies that are bonded to a suitable backing support. The bonding between the sputtering target body and the backing support is achieved by controlled heating under a suitable temperature, preferably with the help of conductive layer between the induction heater and internal target body that is inductively heated in a manner that enhances axial and radial gradient heating. A non-adhesive protective wrap can also be placed at the target body such as between the conductive wrap and target body.

A copper-based brazing material comprises an alloy having nickel in a proportion of from 20 to 35 percent by weight, zinc in a proportion of from 5 to 20 percent by weight, manganese in a proportion of from 5 to 20 percent by weight, chromium in a proportion of from 1 to 10 percent by weight, silicon in a proportion of from 0.1 to 5 percent by weight and molybdenum in a proportion of from 0 to 7 percent by weight, each based on the total weight of the alloy, and the remainder being copper and unavoidable impurities. The alloy is in particular free from boron, phosphorus and lead. The brazing material can be used for induction brazing of components made of iron materials for exhaust systems in motor vehicles.

A copper-based brazing material comprises an alloy having nickel in a proportion of from 20 to 35 percent by weight, zinc in a proportion of from 5 to 20 percent by weight, manganese in a proportion of from 5 to 20 percent by weight, chromium in a proportion of from 1 to 10 percent by weight, silicon in a proportion of from 0.1 to 5 percent by weight and molybdenum in a proportion of from 0 to 7 percent by weight, each based on the total weight of the alloy, and the remainder being copper and unavoidable impurities. The alloy is in particular free from boron, phosphorus and lead. The brazing material can be used for induction brazing of components made of iron materials for exhaust systems in motor vehicles.

The invention relates to a process for manufacturing a vacuum insulated glazing wherein the glazing is assembled in a single stage by supplying glass panes, metallic spacers and corner and frame metallic seal elements which are brazed onto adhesion layers previously deposited onto the edge region areas of the glass panes.

The invention relates to a process for manufacturing a vacuum insulated glazing wherein the glazing is assembled in a single stage by supplying glass panes, metallic spacers and corner and frame metallic seal elements which are brazed onto adhesion layers previously deposited onto the edge region areas of the glass panes.

An assembly for a dual-walled component of a gas turbine engine and methods of forming and repairing a dual-walled component. The assembly includes a cold section part having an outer surface that defines a plurality of impingement apertures, a hot section part including a pre-sintered preform, the hot section part positioned over the outer surface of the cold section part, and a plurality of support structures including the pre-sintered preform, the plurality of support structures positioned between the hot section part and the cold section part, the plurality of support structures separating the hot section part from the cold section part to define at least one cooling channel therebetween.

A heating apparatus for induction heating is disclosed. The heating apparatus may comprise a bearing ring, at least one bearing element disposed in the bearing ring, and a braze material adjacent to the at least one bearing element and the bearing ring. The heating apparatus may additionally comprise an inductor positioned radially adjacent to at least a portion of the bearing ring. A current source may be electrically coupled to the inductor. A bearing orienting member may also abut a surface of the at least one bearing element. The bearing orienting member may orient a surface of the at least one bearing element. A heating method is also disclosed.