A package for pourable food products and method for moulding a polymeric opening portion to a packaging sheet material is provided. The package can include an opening portion and a weakening feature. In some embodiments, the opening portion can be made of a polymer composition. In some embodiments, the weakening feature has a thickness below 200 micrometers and is thinner than parts of the opening portion directly adjacent to said weakening feature. The polymer composition can include sodium sulphite particles. In some embodiments, the sodium sulphite particles have the following size characteristics: (i) 0% having a size above 75 micrometers, and (ii) an average size below 25 micrometers.

The invention comprises a container comprising: a base; at least one paper-based sidewall seamed to and extending upwardly from the base, wherein the at least one sidewall comprises a score line near the base that is at least partially circumferential and is configured to be torn through to remove the base from the sidewall; and a liner ply adhered to an interior surface of the sidewall.

Packaging, a packaging blank and a method of forming packaging are described. The specific packaging comprises a base (104); and at least one sidewall (102) projecting from the base (104) and defining with the base (104) a storage volume. The at least one sidewall (102) comprises inner and outer layers (108, 110). Each of the inner and outer layers (108, 110) comprises a line of perforations (112, 114). The lines of perforations (112, 114) of the inner and outer layers (108, 110) are substantially aligned.

Provided is a cup comprising a frusto-conical shaped wall that is narrower on top of the cup, the top of the cup having an opening for passage of liquid, the cup having a circular bottom made from a material that is different than material of the wall of the cup, the wall of the cup having at least two fold lines; wherein the cup has a stowed configuration where the cup is collapsed along the fold lines and the cup has a deployed configuration so that the cup can hold a liquid.

A composite container comprises a tubular body, the tubular body having an inside surface and an outside surface and a container opening at a top end of the tubular body. The composite container comprises a top rim surrounding the container opening, the top rim being attached to a top end portion of the tubular body at the top end of the tubular body, and a lid for opening and closing the composite container. The composite container comprises a separation arrangement, for separating the top end portion of the tubular body together with the attached top rim from a main part of the tubular body, the separation arrangement comprising a tear strip formed between a pair of inside score lines which are arranged from the inside surface of the tubular body.

The invention comprises a container comprising: a base; at least one paper-based sidewall seamed to and extending upwardly from the base, wherein the at least one sidewall comprises a score line near the base that is at least partially circumferential and is configured to be torn through to remove the base from the sidewall; and a liner ply adhered to an interior surface of the sidewall.

Provided is a cup comprising a frusto-conical shaped wall that is narrower on top of the cup, the top of the cup having an opening for passage of liquid, the cup having a circular bottom made from a material that is different than material of the wall of the cup, the wall of the cup having at least two fold lines; wherein the cup has a stowed configuration where the cup is collapsed along the fold lines and the cup has a deployed configuration so that the cup can hold a liquid.

A liquid container made entirely from natural plant materials is revealed. The liquid container includes a cap and an upper portion made from plant fiber by mold injection, a body made of a spiral paper tube having at least two-layer structure, and a base produced by molding of composite paper. The body and the base are connected by adhesives. A fastening member is disposed on an area where the upper portion and the body are connected for improving reliability and structural strength of the area while a mounting groove formed by rolling is arranged at an area where a bottom end of the body and the base are connected by adhesives. The fastening member and the mounting groove improve connection reliability and structure strength. The liquid container with excellent structural strength is more resistant to pressure in radial and longitudinal directions and used to fill pressurized beverages or liquid such as carbonated drinks.

The present invention relates to a method for manufacturing of a laminated cellulose-based liquid or semi-liquid food packaging material, wherein the laminated packaging material has a bulk material layer of paper, paperboard or other cellulose-based material, an innermost, heat sealable and liquid-tight layer of a thermoplastic polymer, the innermost polymer layer intended to be in direct contact with the packaged food product, a barrier layer laminated between the bulk layer and the innermost layer. The invention further relates the laminated packaging materials obtained by the method and to a packaging container for liquid food packaging, comprising the laminated packaging material or being made from the laminated packaging material obtained by the method.

A modular data center includes a controller; a data center control system configured to collect data center data associated with the modular data center via communication with one of the controller and a plurality of sensors; and a data module connected to a power supply source. The power supply source includes at least one of a power grid, a backup power source and a power module. The power module includes electronics equipment for conditioning and distributing power to the one or more data modules. The data module includes a first enclosure defining a first internal space; and a first sensor in the plurality of sensors. The first sensor is in communication with at least one of the controller and the data center control system. A second sensor in the plurality of sensors is in communication with the power supply source.