A dual phase magnetic component, along with methods of its formation, is provided. The dual phase magnetic component may include an intermixed first region and second region formed from a single material, with the first region having a magnetic area and a diffused metal therein, and with the second region having a non-magnetic area. The second region generally has greater than 0.1 weight % of nitrogen.

A tip is formed for use with an ultrasonic handpiece. The handpiece, when actuated, is capable of causing the tip to go into ultrasonic vibrations. The tip has a shaft from which a head extends. Teeth extend from the head. At least the teeth have a case hardened outer layer. The case hardened outer layer reduces the wearing of the teeth when the teeth are vibrated against hard tissue.

A method for patterning film layer, a metal wire grid polarizer and a manufacturing method thereof are provided. The method includes: forming an imprint adhesive layer on a metal layer; imprinting the imprint adhesive layer to form a groove so that part of the metal layer is exposed from the bottom of the groove; performing a surface treatment on the exposed metal layer to form an etching-resist layer on the surface of the exposed metal layer, the etching-resist layer containing an element contained in the metal layer; and etching the imprint adhesive layer and the surface-treated metal layer to remove the imprint adhesive layer and the metal layer whose surface is not formed with the etching-resist layer, to obtain a patterned metal layer, thereby reducing cost and time of the metal layer patterning and improving the patterning accuracy.

A method for patterning film layer, a metal wire grid polarizer and a manufacturing method thereof are provided. The method includes: forming an imprint adhesive layer on a metal layer; imprinting the imprint adhesive layer to form a groove so that part of the metal layer is exposed from the bottom of the groove; performing a surface treatment on the exposed metal layer to form an etching-resist layer on the surface of the exposed metal layer, the etching-resist layer containing an element contained in the metal layer; and etching the imprint adhesive layer and the surface-treated metal layer to remove the imprint adhesive layer and the metal layer whose surface is not formed with the etching-resist layer, to obtain a patterned metal layer, thereby reducing cost and time of the metal layer patterning and improving the patterning accuracy.

In one or more embodiments, a shielding device is provided to shield a bore of a shaft against surface treatment, the shielding device including a sleeve to be at least partially received within the bore, the sleeve defining on its side wall a through-aperture and being of a first cross-sectional dimension when the through-aperture is at a rest position, and a pin to be at least partially received within the sleeve, the sleeve being of a second cross-sectional dimension greater than the first cross-sectional dimension when the through-aperture is at an expanded position with the pin being at least partially received within the sleeve.

In one or more embodiments, a shielding device is provided to shield a bore of a shaft against surface treatment, the shielding device including a sleeve to be at least partially received within the bore, the sleeve defining on its side wall a through-aperture and being of a first cross-sectional dimension when the through-aperture is at a rest position, and a pin to be at least partially received within the sleeve, the sleeve being of a second cross-sectional dimension greater than the first cross-sectional dimension when the through-aperture is at an expanded position with the pin being at least partially received within the sleeve.

A method for treating sheet metal is disclosed in which a material containing at least one alloying element is applied onto a first area of at least one surface of the metal sheet. A second area of the surface is kept free of the material. The metal sheet is subsequently heat treated in order to diffuse the alloying element into the first area of the metal sheet. The temperature of the first area is lower than the melting temperature of the metal sheet during the diffusion.

A method for treating sheet metal is disclosed in which a material containing at least one alloying element is applied onto a first area of at least one surface of the metal sheet. A second area of the surface is kept free of the material. The metal sheet is subsequently heat treated in order to diffuse the alloying element into the first area of the metal sheet. The temperature of the first area is lower than the melting temperature of the metal sheet during the diffusion.

A turbine blade in an industrial gas turbine includes a blade surface to be cooled by a film of cooling fluid, a plurality of cooling holes on the blade surface through which cooling fluid flows, each cooling hole including an inlet portion and an outlet portion, and a trench on the blade surface surrounding at least one outlet portion of the cooling hole, the trench extending in an axial direction and a radial direction from the outlet portion of the cooling hole, wherein the outlet portion of the cooling hole has a shape configured to generate a first stage diffusion of the cooling fluid and a wall of the trench is positioned in the axial direction from the outlet portion of the cooling hole to generate a second stage diffusion of the cooling fluid, thereby forming the film of cooling fluid.

A magnetic component including first and second regions, and a method of varying the magnetization values in different regions of the magnetic component are disclosed. The first and the second regions are characterized by a nitrogen content that is different from each other. At least one of the first region and the second region is partially-magnetic and has a nitrogen content in a range from about 0.1 weight % to about 0.4 weight % of that region. A concentration of carbon, if present, of both the first and second regions is less than about 0.05 weight % of the respective regions.