A thermal insulation cup with a tilted neck includes an outer case and an inner tank arranged inside the outer case. The outer case includes a first cup wall, a second cup wall, and a case bottom that together define a cavity with an open end. The end of the first cup wall has a less height than that of the end of the second cup wall. The first cup wall gradually tilts inward in the direction from the bottom to the end. The second cup wall gradually tilts inward in the direction from the bottom to the end. The inner tank includes a drinking port, a first inner wall, a second inner wall, and a bottom that together define a cavity with an open end. The end of the first inner wall has a less height than that of the second inner wall. The first inner wall gradually tilts inward in the direction from the bottom to the end, and the second inner wall gradually tilts inward in the direction from the bottom to the end. The ends of the outer case and the inner tank respectively define an opening and a drinking port that are inclined to the same side. The opening is welded and fixed to the lower part of the drinking port.

A container including a rigid base and one or more rigid lateral walls, the lateral wall being perimetrically continuous, such that the lateral wall and the base define a cavity. The cavity allows for the storage and transportation of contents, such as sand, rocks, building materials, paints, and other liquids. The container includes a set of flanges on an exterior side of the one or more lateral walls, with the flanges providing attachment points for a set of handles. When the set of handles are secured to the flanges, a user can easily grip the handles to transport the container to a new location. In addition, the container includes a circumferential lip that extends below the base, such that a user can easily grasp the lip at different locations to maneuver the container, without forcing the user to grip a specific handle on the bottom of the container.

A package structure for welding powder has a casing and a casing cover. The casing cover is deposited on the cover. The casing and the casing cover are made of metallic copper. The casing cover has a protruding segment being cylindrical and formed on a bottom surface of the casing cover, and a mounting recess being round and formed in a top surface of the casing cover corresponding to the protruding segment for storing fine welding powder. The package structure has a fire strip deposited on the top surface of the casing cover and extending into the mounting recess via a top opening of the mounting recess, and a sealing sheet deposited on the top surface of the casing cover to hold the fire strip securely with the casing cover and seal the top opening of the mounting recess.

A canister for storing radioactive materials includes a base plate, side wall and a top plate. The top plate includes a top surface with a top edge having a bevel, and with a channel set in from the top edge. The top plate is sealed to the sidewall by a weld formed between the beveled top edge and the top of the side wall. The base plate is sealed to a bottom of the sidewall, so that a sealed vessel is formed.

Easy reading of a read code is enabled without matching a read range with a specific print section, and without impairing designability of a cylindrical container and clarity of a display print.

A cylindrical container has, on the outer surface thereof, a print layer. The print layer has an electronic watermark layer including an electronic watermark image printed thereon, and a blindfold layer that renders the electronic watermark image difficult to be visually recognized. The print area of the blindfold layer matches a part or entirety of the print area of the electronic watermark layer.

A can lid made of a resin laminate steel sheet for a resin-metal composite container, includes: a top sheet portion; and a curved portion located at an outer periphery of the top sheet portion, in which the resin laminate steel sheet includes a steel sheet, a thermoplastic polyester-based resin layer provided at a first surface of the steel sheet, a modified polypropylene-based resin layer provided at a second surface of the steel sheet, a polypropylene-based resin layer, and an ethylene-propylene copolymer resin layer, a melting point of the ethylene-propylene copolymer resin layer is 135° C. or higher and 150° C. or lower, a melting point of the thermoplastic polyester-based resin layer is higher than a melting point of the polypropylene-based resin layer by 40° C. or more, and a range of a proportion of the ethylene component in the ethylene-propylene copolymer in the ethylene-propylene copolymer resin layer is 1.0 mass % or more and 45.0 mass % or less.

A container that seals in a volume of material is provided. The container may be routinely opened, closed and material may be removed or added. A removable plate and a base define a maximum volume available for material when the container is sealed. A screen may be disposed between the plate and the base. The screen may optionally be comprised within the base, adhered to the base, or removable from the base. Features for enabling manipulation of the plate and/or screen are optionally provided.

A beverage can (1) or an equivalent openable beverage container which comprises a bottom part, a cylindrical side part and an annular cover structure (3), whereby said side part is attached to the cover structure (3) either via a reducing collar (2) formed at the upper end of the side part or without a reducing collar and said cover structure (3) includes an openable hole (6) for pouring the contents out of the can or for drinking the contents from said can directly. An inwards-directed impression (7) has been formed in the reducing collar (2) or the top edge of the cylindrical part of the beverage can (1) immediately at the point of the hole (6) in the cover structure (3) without substantially damaging the cover structure (3) to form in the beverage can (1) both a pouring spout and a shape improving the drinking event.

A surface-treated steel sheet including a tin-plated steel sheet having a tin plating on a steel sheet; a tin oxide layer formed on the tin-plated steel sheet and containing tin oxide as a main component; a composite oxide layer formed on the tin oxide layer and containing phosphoric acid and aluminum as main components; and an aluminum-oxygen compound layer formed on the composite oxide layer and containing an aluminum-oxygen compound as a main component, wherein the tin oxide layer has a thickness of 8 to 20 nm.

Easy reading of a read code is enabled without matching a read range with a specific print section, and without impairing designability of a cylindrical container and clarity of a display print. A cylindrical container has, on the outer surface thereof, a print layer. The print layer has an electronic watermark layer including an electronic watermark image printed thereon, and a blindfold layer that renders the electronic watermark image difficult to be visually recognized. The print area of the blindfold layer matches a part or entirety of the print area of the electronic watermark layer.