The present invention relates to a thermosetting resin composition for coating a metal film having high flowability and pattern-filling property and a metal laminate using the same.

A system for coating of a donor material onto a laser radiation transparent substrate, the system including a donor material applicator, applying donor material to the laser radiation transparent substrate, a multi-pass precise donor material thickness determiner for providing a desired thickness of the donor material on the laser radiation transparent substrate and including a linearly displaceable blade support, a layer thickness uniformizing blade lockably pivotably mounted onto the linearly displaceable blade support about a pivot axis, the blade having a straight edge and a blade position maintainer operative for maintaining the straight edge at a desired separation distance from the laser radiation transparent substrate, the separation distance being uniform along the straight edge of the layer thickness uniformizing blade.

A system for coating of a donor material onto a laser radiation transparent substrate, the system including a donor material applicator, applying donor material to the laser radiation transparent substrate, a multi-pass precise donor material thickness determiner for providing a desired thickness of the donor material on the laser radiation transparent substrate and including a linearly displaceable blade support, a layer thickness uniformizing blade lockably pivotably mounted onto the linearly displaceable blade support about a pivot axis, the blade having a straight edge and a blade position maintainer operative for maintaining the straight edge at a desired separation distance from the laser radiation transparent substrate, the separation distance being uniform along the straight edge of the layer thickness uniformizing blade.

Disclosed is a non-stick coating for an article, particularly for a baking pan or other household and utility item, comprises at least a base layer (G) burnt onto a surface (O) of the article and a covering layer (D) burnt above the base layer. The base layer and the covering layer each have a dry film thickness of 1 to 25 μm, wherein the base layer contains 10 to 100 wt.-%, related to the weight of the burnt base layer, of a thermoplastic resin having a temperature resistance exceeding 200° C., and wherein the covering layer contains a thermoplastic resin having a temperature resistance exceeding 200° C. and optionally a silicone resin. Both the base layer and also the covering layer are free of perfluorinated and polyfluorinated alkyl compounds. Due to the fact that the covering layer comprises a content of thermoplastic resin of at least 30 wt.-%, related to the weight of the burnt covering layer, and of at least 2.5 wt.-%, related to the weight of the burnt covering layer, of a silicone oil, novel fluorine-free non-stick coatings with good substrate adhesion and very good deep-drawing properties are obtained. In a process for applying the non-stick coating, the base layer to be formed is applied as a liquid varnish onto the surface of the article and subsequently dried at 250 to 440° C., subsequently the covering layer is applied as liquid varnish onto the predried base layer, and finally the layers are bonded to each other and to the surface of the article by means of heat treatment at 250 to 440° C.

A perovskite film and a method of manufacturing same are provided. By adding a surfactant during a process of manufacturing a perovskite solution and adopting a coating method during a process coating the perovskite solution onto a substrate, a flatness of the perovskite film is effectively improved, and a thickness of the perovskite film is uniform. Therefore, the perovskite film becomes more smoothly and has better compactness. Thus, the present invention also has advantages of simple manufacturing process, reduced cost, and suitable for large-scale industrial production.

A perovskite film and a method of manufacturing same are provided. By adding a surfactant during a process of manufacturing a perovskite solution and adopting a coating method during a process coating the perovskite solution onto a substrate, a flatness of the perovskite film is effectively improved, and a thickness of the perovskite film is uniform. Therefore, the perovskite film becomes more smoothly and has better compactness. Thus, the present invention also has advantages of simple manufacturing process, reduced cost, and suitable for large-scale industrial production.

The present invention provides a composite molded body in which a rubber layer in the form of a thin film is formed on a surface of a resin molded body and a production method therefor. According to an embodiment of the present invention, a liquid composition containing a rubber component such as a rubber latex and a peroxide is applied to a surface of a resin molded body such as a polyamide-based resin having an amino group, causing crosslinking to occur in an uncrosslinked rubber layer and forming a crosslinked rubber layer in the form of a thin film. When a co-crosslinking agent is used in combination, adhesion to the resin molded body can be improved even when the thickness of the crosslinked rubber layer is small.

This disclosure relates to basic inorganic compositions. Methods of providing antifungal/antibacterial resistance and/or hydrophobicity and/or corrosion resistance by coating surfaces with the basic inorganic compositions are provided. In another aspect, a silicate composition comprising at least one alkali earth metal; and a Group IV element of silicon, germanium, tin, or lead having at least one hydrocarbon moiety covalently bonded thereto is provided.

This disclosure relates to basic inorganic compositions. Methods of providing antifungal/antibacterial resistance and/or hydrophobicity and/or corrosion resistance by coating surfaces with the basic inorganic compositions are provided. In another aspect, a silicate composition comprising at least one alkali earth metal; and a Group IV element of silicon, germanium, tin, or lead having at least one hydrocarbon moiety covalently bonded thereto is provided.

A drop draw and extrusion method that creates anchor points around, within, or around and within, the region where a two dimensional fibrous architecture is deposited. Between the anchor points, a nozzle translates at high speeds to draw, extrude, or draw and extrude (depending on the print settings), a filament from the nozzle and build a two dimensional network of filaments connected by the anchors. Webbed architectures fabricated using the methods described herein exhibit superior structural properties.