A system for assembling a vehicular window assembly includes a heating device that, when electrically operated, heats an electrical connector disposed at a glass panel of a vehicular window assembly to heat and melt solder disposed between the electrical connector and an electrically conductive trace established at the glass panel to form a solder joint providing electrically-conductive connection between the electrical connector and the electrically conductive trace established at the glass panel. A temperature sensor captures sensor data indicative of a temperature of the electrical connector and the solder. The system, based on processing at an electronic control unit (ECU) of the captured sensor data, adjusts electrical operation of the heating device to adjust the temperature of the electrical connector and the solder during the soldering process that forms the solder joint.

A system for assembling a vehicular window assembly includes a heating device that, when electrically operated, heats an electrical connector disposed at a glass panel of a vehicular window assembly to heat and melt solder disposed between the electrical connector and an electrically conductive trace established at the glass panel to form a solder joint providing electrically-conductive connection between the electrical connector and the electrically conductive trace established at the glass panel. A temperature sensor captures sensor data indicative of a temperature of the electrical connector and the solder. The system, based on processing at an electronic control unit (ECU) of the captured sensor data, adjusts electrical operation of the heating device to adjust the temperature of the electrical connector and the solder during the soldering process that forms the solder joint.

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.

Apparatus and associated methods relate to removing an adhesively-attached component from a circuit board assembly. A complementary pair of high-permeability members are positioned on opposite sides of the circuit board assembly about the adhesively-attached component. Then, a magnetic field is induced within the complementary pair of high permeability members via a coil driver generating an AC current in an inductive coil circumscribing a central pedestal of the complementary pair of high-permeability members. The magnetic field induced is directed through the adhesively-attached component via a central pedestal located proximate the adhesively-attached component. A return path for the magnetic field is provided about a periphery of the adhesively-attached component via a peripheral pedestal.

A vacuum insulated glass product and the method for making the same, wherein the vacuum insulated glass comprises: a first glass substrate; a second glass substrate disposed facing the first glass substrate; a sealing structure provided between the first glass substrate and the second glass substrate and used for airtight binding of the first glass substrate and the second glass substrate to form a vacuum cavity; and a plurality of supports provided inside the vacuum cavity for bearing pressure from the first glass substrate and the second glass substrate. The sealing structure comprises: metal layers which are fixedly formed on facing surfaces of the first glass substrate and the second glass substrate, and an intermediate solder layer which is disposed between and connects the metal layers. The sealing structure has arc-shaped transition structures at the corner areas of the glass substrates.

A vacuum insulated glass product and the method for making the same, wherein the vacuum insulated glass comprises: a first glass substrate; a second glass substrate disposed facing the first glass substrate; a sealing structure provided between the first glass substrate and the second glass substrate and used for airtight binding of the first glass substrate and the second glass substrate to form a vacuum cavity; and a plurality of supports provided inside the vacuum cavity for bearing pressure from the first glass substrate and the second glass substrate. The sealing structure comprises: metal layers which are fixedly formed on facing surfaces of the first glass substrate and the second glass substrate, and an intermediate solder layer which is disposed between and connects the metal layers. The sealing structure has arc-shaped transition structures at the corner areas of the glass substrates.

A soldering system includes a temperature measurement device that measures a temperature distribution of a surface of a substrate. The soldering system also includes a driver that drives the soldering system based on a control parameter obtained from the temperature distribution measured by the temperature measurement device.

A soldering system includes a temperature measurement device that measures a temperature distribution of a surface of a substrate. The soldering system also includes a driver that drives the soldering system based on a control parameter obtained from the temperature distribution measured by the temperature measurement device.

An apparatus for soldering a terminal to which a solder alloy is attached on window glass for a vehicle, includes a terminal to which the solder alloy is attached; a coil unit including a coil which generates induction heat; a gripper which grips and releases the terminal and is configured to be movable upward and downward relative to the coil unit in a state of gripping the terminal; and a ferrite core unit including a ferrite core which is configured to be surrounded by the coil unit to receive the induction heat, and is configured to be movable upward and downward relative to the coil unit, wherein the solder alloy attached to the terminal, in a state of being in contact with the window glass, is melted by the induction heat from the coil unit and the ferrite core unit such that the terminal is attached to the window glass.

An apparatus for soldering a terminal to which a solder alloy is attached on window glass for a vehicle, includes a terminal to which the solder alloy is attached; a coil unit including a coil which generates induction heat; a gripper which grips and releases the terminal and is configured to be movable upward and downward relative to the coil unit in a state of gripping the terminal; and a ferrite core unit including a ferrite core which is configured to be surrounded by the coil unit to receive the induction heat, and is configured to be movable upward and downward relative to the coil unit, wherein the solder alloy attached to the terminal, in a state of being in contact with the window glass, is melted by the induction heat from the coil unit and the ferrite core unit such that the terminal is attached to the window glass.