A carton for packaging product includes a bottom wall having a plurality of bottom wall panels. The carton further includes a plurality of side walls connected to the bottom wall, a first handle formed by at least a portion of the plurality of side walls, and a second handle formed by at least a portion of the plurality of side walls. The carton further includes a first support structure formed by at least a portion of the plurality of side walls and a second support structure formed by a least a portion of the plurality of side walls. A method includes providing a carton blank comprising a plurality of panels and manipulating the carton blank such that the plurality of panels define a bottom wall, a plurality of side walls, a first support structure, a second support structure, a first handle of the carton, and a second handle of the carton.

A carton for packaging product includes a bottom wall having a plurality of bottom wall panels. The carton further includes a plurality of side walls connected to the bottom wall, a first handle formed by at least a portion of the plurality of side walls, and a second handle formed by at least a portion of the plurality of side walls. The carton further includes a first support structure formed by at least a portion of the plurality of side walls and a second support structure formed by a least a portion of the plurality of side walls. A method includes providing a carton blank comprising a plurality of panels and manipulating the carton blank such that the plurality of panels define a bottom wall, a plurality of side walls, a first support structure, a second support structure, a first handle of the carton, and a second handle of the carton.

The present invention relates generally to a new and improved paper-based container. More specifically, the invention relates to a paper-based container that is comprised of a relatively low-density polyethylene coating on one or both surfaces of the container and at least two skive flaps, wherein each of said skive flaps is created during the manufacturing process. The skive flap further comprises at least one leading edge of the container body, and prevents unwanted moisture from entering the container and the contents of the container from saturating the paper-based material. One skive flap is preferably folded in a manner in which a portion of the outside surface of the container is adhered to the inside surface, a second skive flap is adhered to the outside surface and a third skive is formed at the bottom of the container.

A box blank useful for forming a container includes a first layer including paperboard, a second layer including a paper layer and a foil layer, and an adhesive layer adhering the first layer to the second layer. The foil layer is between the paperboard and the paper layer.

A box blank useful for forming a container includes a first layer including paperboard, a second layer including a paper layer and a foil layer, and an adhesive layer adhering the first layer to the second layer. The foil layer is between the paperboard and the paper layer.

A biodegradable packaging material, a method of manufacturing the same, as well as products made of the material wherein the manufacture comprises extrusion onto a fibrous substrate one or more polymer coating layers including at least one layer of a polymer blend consisting of (i) 20-95 wt-% of polylactide having a high melt index of more than 35 g/10 min (210° C.; 2.16 kg), (ii) 5-80 wt-% of polybutylene succinate (PBS) or a biodegradable derivate thereof, and (iii) 0-5 wt-% of one or more polymeric additives. The components of the blend are melted and blended in connection with the extrusion step. The goal is to improve extrudability, increase machine speed in extrusion and maintaining good adhesiveness to the substrate and good heat-sealability of the coating. The products include disposable drinking cups and board trays, as well as sealed carton packages for solids and liquids.

A biodegradable packaging material, a method of manufacturing the same, as well as products made of the material wherein the manufacture comprises extrusion onto a fibrous substrate one or more polymer coating layers including at least one layer of a polymer blend consisting of (i) 20-95 wt-% of polylactide having a high melt index of more than 35 g/10 min (210° C.; 2.16 kg), (ii) 5-80 wt-% of polybutylene succinate (PBS) or a biodegradable derivate thereof, and (iii) 0-5 wt-% of one or more polymeric additives. The components of the blend are melted and blended in connection with the extrusion step. The goal is to improve extrudability, increase machine speed in extrusion and maintaining good adhesiveness to the substrate and good heat-sealability of the coating. The products include disposable drinking cups and board trays, as well as sealed carton packages for solids and liquids.

A reseal label for at least partially covering a pack for consumer goods includes a sheet of polymer material having a pull tab and one or more panels configured to at least partially cover the pack for consumable goods. The reseal label includes resealable adhesive on the pull tab, and permanent adhesive on one or more of the one or more panels to adhere to one or more walls of the pack.

A container is provided that includes an RFID module, and further includes an insulating base material that forms an outer shape of the container; a metal film formed on a first main surface of the insulating base material; and a slit formed in the metal film. Moreover, the RFID module includes an RFIC element, a filter circuit that transmits a current caused by an electromagnetic wave at a unique resonance frequency serving as a communication frequency to the RFIC element, and first and second electrodes connected to the filter circuit. The metal film is formed to wrap around an outer periphery of the container in a direction intersecting the slit, and the first and second electrodes of the RFID module are electrically connected to the metal film across the slit formed between the first electrode and the second electrode.

The present invention relates generally to a new and improved paper-based container. More specifically, the invention relates to a paper-based container that is comprised of a relatively low-density polyethylene coating on one or both surfaces of the container and at least two skive flaps, wherein each of said skive flaps is created during the manufacturing process. The skive flap further comprises at least one leading edge of the container body, and prevents unwanted moisture from entering the container and the contents of the container from saturating the paper-based material. One skive flap is preferably folded in a manner in which a portion of the outside surface of the container is adhered to the inside surface, a second skive flap is adhered to the outside surface and a third skive is formed at the bottom of the container.