A bearing component such as a bearing ring includes a metallic base body and at least one alloy steel coating on the base body, the coating being applied to the base body by deposition welding. The base body is preferably non-alloy steel or cast iron, and the alloy includes at least one carbide-forming transition metal such as niobium, tantalum, zirconium, titanium, hafnium, tungsten, molybdenum, vanadium, or manganese. The coating can form a raceway of the bearing component or a structural element such as a flange. Also a method of forming such a bearing component is provided.

A device for vaporizing a composition. The device comprises a thermally conductive substrate having a surface, the surface comprising a thermally conductive surface structure. A dry composition capable of a solid to liquid phase change upon being heated to at least a select temperature is disposed on the surface structure. The surface structure is configured to form liquid droplets of the composition upon heating of the surface structure to at least the select temperature. The liquid droplets have a median diameter less than a median diameter of liquid droplets formed on a planar substrate surface heated to at least the select temperature.

A device for vaporizing a composition. The device comprises a thermally conductive substrate having a surface, the surface comprising a thermally conductive surface structure. A dry composition capable of a solid to liquid phase change upon being heated to at least a select temperature is disposed on the surface structure. The surface structure is configured to form liquid droplets of the composition upon heating of the surface structure to at least the select temperature. The liquid droplets have a median diameter less than a median diameter of liquid droplets formed on a planar substrate surface heated to at least the select temperature.

A system for an extreme ultraviolet light source includes a capillary tube, the capillary tube including a sidewall extending from a first end to a second end, the sidewall including an exterior wall and an interior wall, the interior wall defining a passage that extends from the first end to the second end; an actuator configured to be positioned at the exterior wall of the capillary tube; and an adhesive between the exterior wall and the actuator, the adhesive being configured to mechanically couple the actuator and the capillary tube, wherein the adhesive occupies a volume that remains substantially the same or expands as a result of curing.

A system for an extreme ultraviolet light source includes a capillary tube, the capillary tube including a sidewall extending from a first end to a second end, the sidewall including an exterior wall and an interior wall, the interior wall defining a passage that extends from the first end to the second end; an actuator configured to be positioned at the exterior wall of the capillary tube; and an adhesive between the exterior wall and the actuator, the adhesive being configured to mechanically couple the actuator and the capillary tube, wherein the adhesive occupies a volume that remains substantially the same or expands as a result of curing.

Novel processes for forming improved coatings with increased crystallinity and density are provided. The process includes utilizing a laminar plasma plume to form the coatings without use of a separate auxiliary heating or post heat treatment step.

Disclosed herein are embodiments of iron-based alloys. The alloys can be powders used as a feedstock for plasma or thermal spray processes. In some embodiments, the alloys can have low or no chromium, provided improvements from an environmental and worker health perspective. In some embodiments, the powder can have a generally large particle size.

Disclosed herein are embodiments of iron-based alloys. The alloys can be powders used as a feedstock for plasma or thermal spray processes. In some embodiments, the alloys can have low or no chromium, provided improvements from an environmental and worker health perspective. In some embodiments, the powder can have a generally large particle size.

The present disclosure provides a method, system, and apparatus that adds one or more reinforcing structures to a thermally sprayed layer of metallic material onto a substrate to reinforce and/or further support the formed substrate coating. The reinforcing structure may be a metallic or non-metallic wire, filament, whisker, mesh, or similar structure and may be coupled to the substrate before or during the thermal spray process, thereby embedding the reinforcing structure(s) into the resulting thermal spray matrix. The type, material, size, shape, and application technique of the reinforcing structure is variable based upon the desired characteristics of the ultimate coating. The durable coating may be formed by a plurality of separate and/or distinct layers. The resultant coating (e.g., the reinforcing structure(s) with the one or more thermal spray layers) provides numerous benefits, including increased strength and resistance to spalling, breaking, cracking, deforming, crack formation, and corrosion.

The present disclosure provides a method, system, and apparatus that adds one or more reinforcing structures to a thermally sprayed layer of metallic material onto a substrate to reinforce and/or further support the formed substrate coating. The reinforcing structure may be a metallic or non-metallic wire, filament, whisker, mesh, or similar structure and may be coupled to the substrate before or during the thermal spray process, thereby embedding the reinforcing structure(s) into the resulting thermal spray matrix. The type, material, size, shape, and application technique of the reinforcing structure is variable based upon the desired characteristics of the ultimate coating. The durable coating may be formed by a plurality of separate and/or distinct layers. The resultant coating (e.g., the reinforcing structure(s) with the one or more thermal spray layers) provides numerous benefits, including increased strength and resistance to spalling, breaking, cracking, deforming, crack formation, and corrosion.