There is described an apparatus for forming opening devices on a sheet packaging material for packaging pourable food products; the apparatus comprises conveying means for advancing the packaging material along a given path, at least one molding unit arranged along the path and adapted to mold one opening device on a receiving portion of the packaging material, and at least one movable element carrying the molding unit and advanced parallel to at least a portion of the path to allow the molding unit to form the opening device while the packaging material is being advanced along the path.

There is described an apparatus for forming opening devices on a sheet packaging material for packaging pourable food products; the apparatus comprises conveying means for advancing the packaging material along a given path, at least one molding unit arranged along the path and adapted to mold one opening device on a receiving portion of the packaging material, and at least one movable element carrying the molding unit and advanced parallel to at least a portion of the path to allow the molding unit to form the opening device while the packaging material is being advanced along the path.

The present invention provides an imprint apparatus which forms a pattern of an imprint material onto a substrate by using a mold, the apparatus including a control unit configured to provide a user interface for displaying a first map indicating a supply position of the imprint material to be supplied onto the substrate, an adjustment window for adjusting a value of an apparatus parameter which is set in the imprint apparatus and used to change a supply position of the imprint material, and a second map indicating a supply position of the imprint material after adjustment of the value of the apparatus parameter.

A system for the continuous extrusion, molding, and curing of tread for tires. An elongated strip of rubber material can be molded and cured shortly after extrusion such that the material retains much of the heat energy of extrusion and does not have to be stored. A plurality of discrete mold assemblies are conveyed adjacent to each other. As the mold assemblies are advanced sequentially, the uncured and unmolded strip of rubber material are extruded and positioned onto the mold assemblies. While the rubber strip advances, individual portions are sequentially molded and cured by passing through a mold press and then a curing press. A plug assembly is used to prevent the backflow of rubber material during the molding and curing.

The invention relates to a method of production for attachment by cohesive bonding of a profile having at least one profile element onto a toothed belt previously produced as a semi-finished product. The toothed belt has a tooth side with a toothing and a toothed belt back located on the back of the tooth side of the toothed belt. In the method of production the at least one profile element is built up layer by layer from at least one first profile element layer and a second profile element layer on the toothed belt back, by the application of an application compound to the toothed belt back at a profile element position by melt layer printing.

Embodiments of the present disclosure pertain to a clamp assembly that includes: a first base and a second base; and a mold operational to be clamped between the first base and the second base. The clamp assembly is operational to stretch and compress the clamped mold without movement of the first base and the second base. For instance, each of the first base and the second base may include a plurality of apertures with pegs that are associated with the mold, where the pegs are operational for stretching and compressing the mold through adjustment. Further embodiments pertain to methods of moving a mold by utilizing the clamp assemblies of the present disclosure.

Embodiments of the present disclosure pertain to a clamp assembly that includes: a first base and a second base; and a mold operational to be clamped between the first base and the second base. The clamp assembly is operational to stretch and compress the clamped mold without movement of the first base and the second base. For instance, each of the first base and the second base may include a plurality of apertures with pegs that are associated with the mold, where the pegs are operational for stretching and compressing the mold through adjustment. Further embodiments pertain to methods of moving a mold by utilizing the clamp assemblies of the present disclosure.

The present invention relates to a method and device for manufacturing artificial marble. According to the present invention, artificial marble having a stripe pattern similar to that of natural stone, such as striato, may be provided.

The present invention relates to a method and device for manufacturing artificial marble. According to the present invention, artificial marble having a stripe pattern similar to that of natural stone, such as striato, may be provided.

A thermally conductive sheet including: an acrylic polymer; a high-soda alumina in an amount of 70 to 75% by volume; and a magnesium hydroxide having a particle size smaller than a particle size of the high-soda alumina in an amount of 2.7 to 5.3% by volume, the magnesium hydroxide is coated with a higher fatty acid. The thermally conductive sheet has a compressive force required in a deformation with a compressibility of 20% or less of 200 N or less, and has a thermal resistance of 0.45C./W or less.