A hollow body includes a wall which at least partially surrounds an interior volume of the hollow body. The wall includes a layer of glass and has a wall surface. The wall surface includes a surface region in which the layer of glass is at least partially superimposed by a plurality of particles. The plurality of particles is characterized by a particle size distribution having a D.sub.50 in a range from 1 to 100 m. A hollow body having a wall surface including a surface region which is characterized by a coefficient of dry sliding friction of less than 0.15 is also provided.

The present disclosure provides an aluminum bottle and a preparation method thereof and belongs to the technical field of alloy. The present disclosure can improve the structure and enhance impact mechanical properties of an aluminum material by controlling a content of manganese to be 0.03-0.5 wt. %. Nickel can improve the strength and rust resistance of the aluminum material. Strontium can form an aluminum-strontium combination to adjust the crystal orientation of a metal lattice, improve forming, and greatly enhance the flexibility. Zirconium acts synergistically to improve the corrosion resistance of the aluminum material and improve surface gloss. The prepared aluminum material is light in weight and has the advantage of high bearing strength.

A bottle or jar identification device comprising a multi-layer token that produces a permanent image when pressure is applied to a writing surface. The token may be affixed to the cap or cover or to the bottle or jar itself. The token can comprise a magic slate, ink meant to fail, lottery type rub-off material, microencapsulated ink, or any other material that produces an image when pressure is applied using a stylus, a fingernail, or any other sharp instrument. The token may also have an adhesive layer. The token having an adhesive layer may be applied to any surface.

A structured body including: a formed body, the surface of which being formed of an underlying resin layer (1); and fine particles distributed on the underlying resin layer (1) on the surface of the formed body, wherein the structured body is characterized in that wax (3) is distributed on the surface of the underlying resin layer (1) together with fine particles (7), and the wax (3) is partly absorbed into the underlying resin layer (1).

A printing device (1) is provided with: a can body conveying mechanism (100) for sequentially conveying can bodies (10); and a can body moving mechanism (200) for moving the can body (10) while forming an image onto the outer circumferential surface of the can body (10) conveyed by the can body conveying mechanism (100). The can body moving mechanism (200) is provided with a rotating member (210) formed in a disc shape and rotating in a clockwise direction in the drawing. The can body moving mechanism (200) is also provided with plural image forming units (220) provided on the rotating member (210) and forming an image onto the outer circumferential surface of the can body (10) while moving the can body (10). The image forming units (220) are each provided with plural ink ejection devices for ejecting ink onto the outer circumferential surface of the can body (10). This provides an image forming device capable of increasing the number of can bodies on each of which an image can be formed per unit time.

In a method for distribution and dispensing of beverages, a one-way system is used including a disposable and freestanding container blow moulded in one piece from a preform of plastics, and a tube structure having a tube to be inserted in the container and a closure cap. The thin-walled container is filled with beverage by means of the tube and then closed by the closure cap. This filled unit is distributed to the end user and connected to standard beverage dispensing means. After use, the empty container is collapsed and discarded along with the tube structure which also is made of plastics.

A printing device (1) is provided with: a can body conveying mechanism (100) for sequentially conveying can bodies (10); and a can body moving mechanism (200) for moving the can body (10) while forming an image onto the outer circumferential surface of the can body (10) conveyed by the can body conveying mechanism (100). The can body moving mechanism (200) is provided with a rotating member (210) formed in a disc shape and rotating in a clockwise direction in the drawing. The can body moving mechanism (200) is also provided with plural image forming units (220) provided on the rotating member (210) and forming an image onto the outer circumferential surface of the can body (10) while moving the can body (10). The image forming units (220) are each provided with plural ink ejection devices for ejecting ink onto the outer circumferential surface of the can body (10). This provides an image forming device capable of increasing the number of can bodies on each of which an image can be formed per unit time.

A printing device (1) is provided with: a can body conveying mechanism (100) for sequentially conveying can bodies (10); and a can body moving mechanism (200) for moving the can body (10) while forming an image onto the outer circumferential surface of the can body (10) conveyed by the can body conveying mechanism (100). The can body moving mechanism (200) is provided with a rotating member (210) formed in a disc shape and rotating in a clockwise direction in the drawing. The can body moving mechanism (200) is also provided with plural image forming units (220) provided on the rotating member (210) and forming an image onto the outer circumferential surface of the can body (10) while moving the can body (10). The image forming units (220) are each provided with plural ink ejection devices for ejecting ink onto the outer circumferential surface of the can body (10). This provides an image forming device capable of increasing the number of can bodies on each of which an image can be formed per unit time.

The subject matter is directed to decorating containers, preferably beverage containers, to create a textured surface, which may include randomly oriented and/or patterned protrusions extending outward from, for example, a can body. The textured effect may be accomplished without the use of lithography to generate randomly oriented and shaped protrusions of various sizes, or may be accomplished using lithography to apply a pattern of inks on the container to form protrusions of predefined shapes and/or sizes. Using the techniques described the decorated can bodies have an increased textured-feel than previous textured can bodies. The decorative effect is created using inks that in combination with a varnish antagonistic to the ink result in the generation of protrusions having lateral dimensions greater than 1 mm and/or having heights of between 40 microns and 80 microns.

A container arrangement is described. The container arrangement comprises a container configured to store one or more contents therein. The container is formed of a glass material. The container arrangement further comprises a sleeve configured to surround the container. The sleeve is formed of a silicone material. The container arrangement further comprises a cap configured to switch between an open state and a closed state. In the closed state, the cap is configured to prevent access to the one or more contents within the container.