The present invention relates to a method for packaging a compressible product in a compressed state, comprising the step of sealing at least two parts of a polymeric machine direction oriented (MDO) film which encloses at least part of the compressible product in the compressed state, characterized in that the seal has a seal elongation at failure of about 20% to about 100%, as measured in accordance with ASTM F88/F88M-09. The present invention also relates to a compressible product in a compressed state packaged in a polymeric MDO film which encloses at least part of the compressible product, wherein at least two parts of the MDO film are sealed and characterized in that the seal has a seal elongation at failure of about 20% to about 100%, as measured in accordance with ASTM F88/F88M-09.

This invention relates to processes for collation shrink packaging of one or more items with a thermally insulating film, to films for such processes, to packages so made, and to methods for extruding such films. The one or more items packaged may be cans, bottles, pouches and other carriers of liquid or solids.

A method for packaging masonry products, comprising stacking the masonry product. Wrapping the masonry product with a packaging film from a first position to a second position below a top of the product. Placing a top sheet on the top of the masonry product, the top sheet forming at least one vent assembly. Wrapping the masonry product and the top sheet with the packaging film below the vent assembly.

Cargo assemblages including a pallet, a load of packages arranged in one or more layers, and a support layer, in which the support layer is sized and positioned within the cargo assemblage to support and/or stabilize the cargo, thereby providing improved pallet efficiency, improved shipping efficiency, and/or improved stability.

The invention relates to shrink packaging for packing a series of containers. The packaging is characterized in that at least one incision line is provided in a first zone, said incision line including a series of perforations forming at least one partially detachable section arranged to allow the extraction of at least one container in a direction extending substantially from the lower part of the container to the upper part thereof, said partially detachable packaging section being larger than the cross-section of the at least one container to be extracted. Moreover, the partially detachable section is located on the periphery of the first zone.

Methods and systems for shipping original design manufacturer (ODM) boxes. The system includes: a plurality of corner sets, each comprising at least two fiber cushions; a plurality of end cap sets, each comprising two opposing corrugated sleeves; and a graphical guide comprising and end cap selector and a corner selector. The graphical guide is configured to allow a user to: compare an ODM box to the end cap selector to thereby select one of the plurality of end cap sets; and compare the ODM box to the corner selector to thereby select one of the plurality of end corner sets. Each sleeve comprises a plurality of height score lines, a plurality of width score lines, and a support feature to stabilize the sleeve during folding.

The present disclosure is directed to an insulation packaging system. The insulation packaging system includes a plurality of insulation packages with first ends and second ends. The plurality of insulation packages defining an axis. A first film wraps around the axis to compress and couple the plurality of insulation packages together, while a second film wraps around the first and second ends of the plurality of insulation packages. The first and second films are different films.

Aspects of the present disclosure relate to cargo assemblages that may include containers of rolled products stacked on pallets secured thereto with film and methods of producing such cargo assemblages. The load may include containers of absorbent paper product arranged in stacked layers from a bottom layer of containers to a top layer of containers. A film may be applied to connect the load with the pallet and to connect neighboring stacked layers together. The film may be wrapped around the pallet and/or layers of containers with a wrap profile having different characteristics, such as for example, containment forces; tensions; numbers of layers, and/or locations of layers with respect to the load, the pallet, and/or each other.

Multi-layered thermoplastic films include intermittent stretched regions that are visually distinct from un-stretched regions. The stretched regions can be white, opaque, and non porous. The multi-layered thermoplastic films with visually-distinct stretched regions can be formed into bags for use as trash can liners or food storage. Additionally, methods of stretching thermoplastic films to create visually distinct stretched regions include incrementally stretching a plurality of film layers, at least one of which includes a thermoplastic material and a voiding agent.

Thermoplastic films include intermittent stretched regions that are visually distinct from un-stretched regions. The stretched regions can be white, opaque, and non porous. The thermoplastic films with visually-distinct stretched regions can be formed into bags for use as trash can liners or food storage. Additionally, methods of stretching thermoplastic films to create non-porous, white, and opaque stretched regions include incrementally stretching a film of a thermoplastic material and a voiding agent.