A method of coating a structure is disclosed. Method steps include providing a structure having a first portion of a first material having a first surface and providing a second portion of a second material having a second surface, wherein a mask is provided over the first surface. Another step includes exposing the mask and the second surface to a solution comprising a polymer and a solvent, wherein the solution dewets from the mask and the polymer collects onto the second surface to form a polymer coating over the second surface without forming a polymer coating on the first surface.

A method of coating a structure is disclosed. Method steps include providing a structure having a first portion of a first material having a first surface and providing a second portion of a second material having a second surface, wherein a mask is provided over the first surface. Another step includes exposing the mask and the second surface to a solution comprising a polymer and a solvent, wherein the solution dewets from the mask and the polymer collects onto the second surface to form a polymer coating over the second surface without forming a polymer coating on the first surface.

A method of producing a rubber seal includes placing a screen with an opening, above a workpiece including a base portion and a bead base protruding from the base portion and applying a liquid material for forming the rubber seal, onto a top part of the bead base through the opening. In the production, the liquid material is applied onto the top part by moving a squeegee along a surface of the screen in a state where a stopper portion is disposed at a position adjacent to the bead base within an area of the base portion and between the screen and the workpiece.

A substrate having a burnable coating mask includes: a substrate having a first section and a second section; a mask coating layer over the first section of the substrate; and a functional coating layer over at least a portion of the mask coating layer and over the second section of the substrate. A method of segmenting a substrate having a layer thereover, a method of preparing a segmented substrate having a layer thereover, a segmented substrate, and a transparency are also disclosed.

A method of applying to a crown surface of a piston, a heat shield material for forming a heat shield layer, is provided. The method includes masking the piston with a masking member, the masking member including a first part that covers at least part of a side surface of the piston with a first clearance between the side surface and the first part, and a second part that covers an outer circumferential part of the crown surface with a second clearance between the outer circumferential part and the second part, and applying the heat shield material, while the piston is masked.

A method of applying to a crown surface of a piston, a heat shield material for forming a heat shield layer, is provided. The method includes masking the piston with a masking member, the masking member including a first part that covers at least part of a side surface of the piston with a first clearance between the side surface and the first part, and a second part that covers an outer circumferential part of the crown surface with a second clearance between the outer circumferential part and the second part, and applying the heat shield material, while the piston is masked.

Methods of applying a polymeric coating to a rear face surface of golf club heads with variable face thickness are disclosed herein. The coating, which preferably comprises polyurea, improves the durability of the face and reduces the hits to failure ratio of the golf club head. The coating improves the performance of the golf club head because it allows for reduction in overall face thickness and easy post-process manipulation to allow for fine-tuning of mass properties after production. The reduction in thickness leads to overall weight reduction, because the polymer is roughly a quarter of the density of titanium or stainless steel, and also reinforces the face, thereby increasing the lifespan of the club.

Methods of applying a polymeric coating to a rear face surface of golf club heads with variable face thickness are disclosed herein. The coating, which preferably comprises polyurea, improves the durability of the face and reduces the hits to failure ratio of the golf club head. The coating improves the performance of the golf club head because it allows for reduction in overall face thickness and easy post-process manipulation to allow for fine-tuning of mass properties after production. The reduction in thickness leads to overall weight reduction, because the polymer is roughly a quarter of the density of titanium or stainless steel, and also reinforces the face, thereby increasing the lifespan of the club.

A system and method for painting a component (3) of a vehicle brake (1) includes a sealing plug (7) inserted into a recess (5), the recess extending in the direction of a longitudinal axis (L) and which has an inner face (9) which is intended to be kept free from paint. The method include providing the component (3) and introducing a sealing plug (7) into the recess (5) of the component. The sealing plug (7) has at least one sealing face (11a-11h) and the sealing face (11a-11h) is disposed inside the recess (5). The sealing face is moved into sealing abutment with the inner face (9) in a radial direction. The method includes painting the component (3) after the sealing plug (7) has been introduced. The sealing plug blocks paint from being deposited on the inner face.

A system and method for painting a component (3) of a vehicle brake (1) includes a sealing plug (7) inserted into a recess (5), the recess extending in the direction of a longitudinal axis (L) and which has an inner face (9) which is intended to be kept free from paint. The method include providing the component (3) and introducing a sealing plug (7) into the recess (5) of the component. The sealing plug (7) has at least one sealing face (11a-11h) and the sealing face (11a-11h) is disposed inside the recess (5). The sealing face is moved into sealing abutment with the inner face (9) in a radial direction. The method includes painting the component (3) after the sealing plug (7) has been introduced. The sealing plug blocks paint from being deposited on the inner face.