A method of manufacturing an organic semiconductor film, including a step of moving a coating blade surface positioned to face a substrate surface in a first direction parallel to the substrate surface, while in contact with an organic semiconductor solution supplied to a portion between the blade surface and the substrate surface to form the organic semiconductor film in the first direction. The coating blade is disposed to have first and second gaps having different separation gap sizes with the substrate surface in a region where the blade surface and the organic semiconductor solution are in contact. The first gap is positioned on an upstream side of the first direction and the second gap, which is smaller than the first gap, is provided on a downstream side. A second gap size is a minimum distance between the substrate surface and the blade surface and is 40 m or less.

An re-usable applicator for coating surfaces with curable liquids has a holder having a receptacle for removably supporting a blade, a blade sized and shaped to securely fit within the receptacle, the blade having a base made from a first material and a tip made from a second material, the base and tip being bonded together, and a retainer to fix a position of the blade within the receptacle. The tip has a lower edge having a W-shaped cross-section that provides two edges to level a liquid that is coated onto a surface. A post extends at an upward and outward angle from the holder and a flange extends upward and outward from the receptacle at the same angle as the post. The post has two opposing slots extending upward from a bottom edge thereof, wherein the slots are sized to slide onto the flange.

The present specification relates to an apparatus for manufacturing a blanket. The apparatus includes a surface plate on which a substrate film is supplied; a coating unit coating a blanket composition on the substrate film; and a comma blade horizontally moving on the surface plate coated with the blanket composition. Of the whole surface of the comma blade, the surface contacting the blanket composition is an angular surface. This application also relates to a method for manufacturing a blanket, a blanket manufactured using the same, a reverse offset printing roll provided with the blanket, and a reverse offset printing apparatus including the same.

The present specification relates to an apparatus for manufacturing a blanket, a method for manufacturing a blanket, a blanket manufactured using the same, a reverse offset printing roll provided with the blanket, and a reverse offset printing apparatus including the same.

Wearing down of a doctor blade by a filler contained in a coating solution is prevented. The doctor blade is for scraping off the coating solution, containing the filler, from a circumferential surface of a coating roller, the coating roller being for applying the coating solution to a battery member being conveyed. A surface of the doctor blade is made from an ultra-high molecular weight polyethylene.

Provided are a coating device and a coating method which suppress the occurrence of exhaustion of a coating liquid. A coating device which applies a coating liquid to an upper surface or a lateral surface of a long substrate continuously traveling in a specific traveling direction has: a bar which is capable of being brought into contact with the upper surface or the lateral surface of the long substrate continuously traveling in the specific traveling direction via the coating liquid, and is rotated; and at least two stages of dam plates which are provided on the upstream side in the traveling direction of the long substrate with respect to the bar, and allow the coating liquid to flow to the long substrate via a space between the dam plate and the bar. The at least two stages of dam plates are arranged along the traveling direction.

In a general aspect, a coating blade for application of coating color to a fibrous web can include an elongate substrate having a longitudinal edge. Within an operating zone of the coating blade intended for contact with a coating color, the elongate substrate can include a longitudinal wear-resistant deposit adjacent to the longitudinal edge. The coating blade, within the operating zone, can also include a longitudinal masking deposit adjoining the longitudinal wear-resistant deposit.

A spreading tool has blade for which the width and depth deployment of the blade are each variable. A pair of plates sandwich the blade between them and allow the blade to slide up and down therebetween in order to vary depth deployment. The blade is formed from two plates that each has a blade edge, the two plates slide with respect to each other, varying the overlap of the two blade edges and thus blade width. Slots on each plate with a connector passing therethrough, hold the blade plates together. Aligned slot pairs on the sandwiching plates receive a connector to hold the blade in its sandwiched position, each connector slides within its slot pair and abuts one of the sides of the blade to hold the blade in its selected width. Additional connectors connect the main plate and press plate without passing through the blade.

A method of manufacturing an organic semiconductor film, including a step of moving a coating blade surface positioned to face a substrate surface in a first direction parallel to the substrate surface, while in contact with an organic semiconductor solution supplied to a portion between the blade surface and the substrate surface to form the organic semiconductor film in the first direction. The coating blade is disposed to have first and second gaps having different separation gap sizes with the substrate surface in a region where the blade surface and the organic semiconductor solution are in contact. The first gap is positioned on an upstream side of the first direction and the second gap, which is smaller than the first gap, is provided on a downstream side. A second gap size is a minimum distance between the substrate surface and the blade surface and is 40 ?m or less.

A coating head includes a coating device and at least a first flexible blade that is capable of being shaped into contact with a solvent-containing film on a substrate upon pressing the first flexible blade against the film, thereby providing contact between the blade and the film over a contact distance when the coating head is drawn over the substrate. The coating device and the blade are separated by a spacing distance such that partial loss of solvent occurs from a starting film formed on the substrate by the coating device as the coating head is drawn over the substrate, the partial solvent loss forming the solvent-containing film. A method of producing a film having a hierarchical structure includes drawing a coating head across a substrate to form on the substrate via the coating device a starting film including a solvent and a material for forming the hierarchical structure.