The present invention relates to a method and system for manufacturing a 3-dimensional packaging material form a moulded pulp material and such packaging unit. The method of the invention comprises the steps of: —preparing a pulp material, comprising the steps of: —providing an amount of biomass with non-wood biomass fibers as a raw material; preparing the biomass fibers; fibrillation of the prepared biomass fibers with an extruder to produce the pulp material with biomass fibers; providing the pulp material to the moulding device; moulding the 3-dimensional food packaging unit; and releasing the 3-dimensional food packaging unit from the mould.

A paper bottle includes a cap, a mouth, a body and a bottom. The mouth has a tube and a body top. The cap can be to seal the tube. The tube is made of biodegradable plastic. A top end of the body is closely connected with the body top. The body is consisted of two layers of paper-based composite paper. The two layers of paper-based composite paper are spirally wound to form a tubular structure. The bottom is made of wood-pulp paper and closely connected with a bottom end of the body.

A single-walled disposable cooler can include: a body including a base and a plurality of support walls coupled to the base, the plurality of support walls and the base defining an interior cavity of the body, and the plurality of support walls extending upwardly from the base to form an opening at an upper terminus of the body in fluid communication with the interior cavity; and a lid configured to reversibly couple with the body, the lid shaped to cover the opening of the body. The body can be made entirely of a pulp-based material.

The present invention relates to a container of fiber pulp for packaging of food, such as vacuum packaging or modified atmosphere packaging. The container comprises a bottom part and side walls surrounding said bottom part and has at an upper end thereof a circumferential longitudinal rim part having a planer main surface being substantially parallel to the bottom plane and defining an opening of the container. The side walls further comprise a reinforcing element below the longitudinal rim part for generating an increased moment of inertia of the rim part along the longitudinal direction thereof.

A bound pad presents a compact and convenient form of providing a two-ply construction that includes a slit-sheet stock material that may be positioned on or hung from a flat surface at the end-user's site. The bound pad includes sheets of slit-sheet stock material that are interleafed with non-die cut separator sheets. The sheets are bound together adjacent one edge, and may be weakened adjacent the bound edge to facilitate their removal from the bound pad during use. A user creates tension by pulling a free edge of the sheet of slit sheet material away from the bound edge, thereby expanding the slit material sheet to form an expanded packaging material. The user places an article on the bound pad, wraps the article in the sheets, and tears the sheets to remove the wrapped article from the bound pad.

A paper or paperboard based packaging laminate comprising: a paper or paperboard base layer, a mineral coating layer, a PVOH coating layer, and a metallized film layer, wherein the mineral coating layer is arranged between and in contact with the base layer and the PVOH coating layer, and wherein the metallized film layer is laminated to the PVOH coating layer, and wherein the packaging laminate has an oxygen transfer rate (OTR), measured according to the standard ASTM F-1927 at 90% relative humidity and 38? C., of less than 5 cc/m.sup.2/day. Also a container with such a paper or paperboard based packaging laminate.

The use of one hundred percent hemp paper for use in paper bags.

A container having an opening sealed with a polymeric film, the container being formed from a pulpable, fibrous material, and less than about 50% of the surface area of the polymeric film being is contact with the container, a method of making such a container, and a method of packaging an article of commerce (e.g., fruit) in said container.

Described is paper or cardboard packaging produced from mineral oil contaminated, (e.g., recycled) paper, wherein the packaging includes a barrier layer obtainable by applying an aqueous polymer dispersion comprising a copolymer obtainable by emulsion polymerization of C.sub.1-C.sub.4 alkyl (meth)acrylates, acid monomers, e.g., acrylic acid or methacrylic acid, 0-20 wt % of acrylonitrile and 0 to 10 wt % of further monomers in an aqueous medium in the presence of a carbohydrate compound, preferably in the form of a degraded starch, wherein the glass transition temperature of the copolymer is in the range from +10 to +45 C. The barrier layer may be situated on one of the surfaces of the packaging or form one of multiple layers of a multilayered packaging coating or be situated as a coating on one side of an inner bag situated within the packaging.

The present invention relates to a method and system for manufacturing a 3-dimensional packaging material form a moulded pulp material and such packaging unit. The method of the invention comprises the steps of: preparing a pulp material, comprising the steps of: providing an amount of biomass with non-wood biomass fibers as a raw material; preparing the biomass fibers; fibrillation of the prepared biomass fibers with an extruder to produce the pulp material with biomass fibers; providing the pulp material to the moulding device; moulding the 3-dimensional food packaging unit; and releasing the 3-dimensional food packaging unit from the mould.