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.

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 method of manufacturing printed images on metal with tight bends provides for crack free edges at the tight bends, something previously unattainable in the marketplace. Specifically, prior to bending the metal, the at least coated metal (if not dye sublimated printed) is at an elevated temperature in a range of 90 to 250 degrees Fahrenheit, such as in a range of 190-200 degrees. The metal is then bent which has been found to permit self-leveling of the coating throughout the tight bend, as opposed to it being so narrow that cracking occurs.

A method of manufacturing printed images on metal with tight bends provides for crack free edges at the tight bends, something previously unattainable in the marketplace. Specifically, prior to bending the metal, the at least coated metal (if not dye sublimated printed) is at an elevated temperature in a range of 90 to 250 degrees Fahrenheit, such as in a range of 190-200 degrees. The metal is then bent which has been found to permit self-leveling of the coating throughout the tight bend, as opposed to it being so narrow that cracking occurs.

Provided are a method for generating mechanical and electrochemical cavitation, a method for changing the geometric shape and the electrochemical properties of a surface of a substance, a method for peeling off a rare metal using the generated mechanical and electrochemical cavitation, a mechanical and electrochemical cavitation generator, and a method for generating a nuclear fusion reaction of deuterium. In the method for generating mechanical and electrochemical cavitation, a water jet is jetted from a jetting nozzle immersed in water, and flow cavitation generated by the jetting of the water jet is irradiated with an ultrasonic wave to generate cavitation MFC having both a functional effect and an electrochemical effect.

Provided are a method for generating mechanical and electrochemical cavitation, a method for changing the geometric shape and the electrochemical properties of a surface of a substance, a method for peeling off a rare metal using the generated mechanical and electrochemical cavitation, a mechanical and electrochemical cavitation generator, and a method for generating a nuclear fusion reaction of deuterium. In the method for generating mechanical and electrochemical cavitation, a water jet is jetted from a jetting nozzle immersed in water, and flow cavitation generated by the jetting of the water jet is irradiated with an ultrasonic wave to generate cavitation MFC having both a functional effect and an electrochemical effect.

The method includes providing a computer model for producing the desired metal workpiece from the flat metal product in a processing procedure, the processing procedure including processing step on the flat metal product by a processing device, receiving technical data record characterizing the flat metal product, at least part of the data of the technical data record having been recorded during the production of the flat metal product, passing the technical data record to the input of the computer model, based on the passing of the technical data record, receiving a model value for an operating parameter of the processing device from the output of the computer model, producing the desired metal workpiece by controlling the processing procedure, the control of the processing procedure including a controlling of the processing device to perform the processing step on the flat metal product using the operating parameter set to the model value.

The method includes providing a computer model for producing the desired metal workpiece from the flat metal product in a processing procedure, the processing procedure including processing step on the flat metal product by a processing device, receiving technical data record characterizing the flat metal product, at least part of the data of the technical data record having been recorded during the production of the flat metal product, passing the technical data record to the input of the computer model, based on the passing of the technical data record, receiving a model value for an operating parameter of the processing device from the output of the computer model, producing the desired metal workpiece by controlling the processing procedure, the control of the processing procedure including a controlling of the processing device to perform the processing step on the flat metal product using the operating parameter set to the model value.

Embodiments of golf clubs with grooves and methods of manufacture thereof are described herein. In one embodiment of a golf club described herein, the golf club has a head with a body. The body has a strike face with channels and at least one insert located within at least one of the channels. At least one of the channels comprises a single groove, and the insert forms at least a portion of the single groove. At least one of the channels comprises an opening on the strike face that is narrower than a bottom of the at least one of the channels. Other embodiments and related methods are also disclosed herein.

Embodiments of golf clubs with grooves and methods of manufacture thereof are described herein. In one embodiment of a golf club described herein, the golf club has a head with a body. The body has a strike face with channels and at least one insert located within at least one of the channels. At least one of the channels comprises a single groove, and the insert forms at least a portion of the single groove. At least one of the channels comprises an opening on the strike face that is narrower than a bottom of the at least one of the channels. Other embodiments and related methods are also disclosed herein.