A method for treating open cut edges of a packaging sleeve, blank or web material of a packaging material rolled up into a roll, in particular a composite cardboard/plastics material, by applying or introducing a disinfectant-containing treatment agent to or into the outer region of the cut edges. To provide a particularly resource-efficient composite packaging and a production method required for this purpose, it is proposed that at least some of the treatment agent is not applied directly to the cut edges, but that a load carrier is loaded, which load carrier absorbs the treatment agent so that an actively sterilising atmosphere which is created then acts on the open cut edges of the packaging sleeve, blank or web material and performs the desired sterilisation. The invention also relates to a packaging material, to a combipack produced therefrom and to a container for receiving the packaging material.

The invention relates to a device for pouring fluid (F) stored in a container (20) by inclining the container (20), the device (10) comprising: —a first part (100) comprising at least one collecting orifice (130) for collecting the fluid in the container (20), —a second part (150), which comprises fluid pouring means (160) that can be fluidically connected to the collecting orifice (130), —sealing means (190) separating the first part (100) and the second part (150), configured to seal the container when the device (10) is mounted on the container (20), the device being characterized in that the first part (100) also comprises a gas reservoir (110) and a degassing orifice (120) for evacuating gas from the reservoir (110) to the interior of the container (20).

The invention relates to a device for pouring fluid (F) stored in a container (20) by inclining the container (20), the device (10) comprising: —a first part (100) comprising at least one collecting orifice (130) for collecting the fluid in the container (20), —a second part (150), which comprises fluid pouring means (160) that can be fluidically connected to the collecting orifice (130), —sealing means (190) separating the first part (100) and the second part (150), configured to seal the container when the device (10) is mounted on the container (20), the device being characterized in that the first part (100) also comprises a gas reservoir (110) and a degassing orifice (120) for evacuating gas from the reservoir (110) to the interior of the container (20).

A container apparatus having at least one containment member is disclosed that may include a bottom and at least one sidewall, an interior and an open end. The container may also include a flange that extends around a free end of the at least one side wall, and a plurality of wall members (or castellations) connected to/formed with/that extend from the flange. The plurality of wall members may be separated by ventilation apertures, with the plurality of wall members and the ventilation apertures extending around the perimeter of the free end. A sealing material, such as a removable film, may extend over the open end to enclose the containment member.

A heat-shrinkable multilayer film according to the present invention is obtained by laminating an inner surface layer that contacts contents, an adhesive layer, and an intermediate layer that is adjacent to the adhesive layer, in this order from an inner side to an outer side. The inner surface layer contains an ethylene-vinyl acetate copolymer, the adhesive layer contains an acid-modified ethylene-based copolymer, and the intermediate layer contains a polyamide-based resin.

The present disclosure relates to anti-microbial film, and more particularly to anti-microbial film for packaging of a perishable item. According to an aspect, the present disclosure is directed to a packaging film comprising a polymer film having a surface, and an antimicrobial agent chemically linked to the surface. According to an aspect, the present disclosure is directed to a method of preparing a packaging film, the method comprising: (a) providing a polymer film having a surface; (b) modifying the surface by UV, plasma or corona treatment; and (c) chemically linking an antimicrobial agent to the modified surface. In an embodiment, the packaging film may be used in packaging for a perishable item.

The present disclosure relates to anti-microbial film, and more particularly to anti-microbial film for packaging of a perishable item. According to an aspect, the present disclosure is directed to a packaging film comprising a polymer film having a surface, and an antimicrobial agent chemically linked to the surface. According to an aspect, the present disclosure is directed to a method of preparing a packaging film, the method comprising: (a) providing a polymer film having a surface; (b) modifying the surface by UV, plasma or corona treatment; and (c) chemically linking an antimicrobial agent to the modified surface. In an embodiment, the packaging film may be used in packaging for a perishable item.

A shipping container having photodynamic pathogen reduction properties. The shipping container include photosensitizers that when exposed to light actively and continuously disinfect their surfaces. Methods of adding or incorporating into or on to photosensitizers to a shipping container.

A shipping container having photodynamic pathogen reduction properties. The shipping container include photosensitizers that when exposed to light actively and continuously disinfect their surfaces. Methods of adding or incorporating into or on to photosensitizers to a shipping container.

A shipping container having photodynamic pathogen reduction properties. The shipping container include photosensitizers that when exposed to light actively and continuously disinfect their surfaces. Methods of adding or incorporating into or on to photosensitizers to a shipping container.