An at least monoaxially stretched, multi-layer film with separation effect and a total thickness of 18 m which has on at least one surface an at least partial embossing.

A packaging film made of an at least monoaxially stretched, multi-layered plastic film comprised of at least up to 50% by weight of polyolefins and having a total thickness 18 m, which has an expansion of up to a maximum of 1% at a tensile force of at least 3N per 25 mm width according to DIN EN ISO 527.3

A recyclable laminate includes a first layer that includes a first inner surface having a bonded region, and a second layer that includes a second inner surface. The second inner surface includes yarns which are distributed thereon and which form micropores. The bonded region extends into a portion of the micropores to wrap corresponding ones of the yarns, so that the first inner surface is partially fusion bonded to the second inner surface at the bonded region and and partially unbonded to the second inner surface at a region other than the bonded region. The first thin layer and the second thin layer are made of a recyclable material, and are structurally different from each other. A recyclable garment made from the recyclable laminate is also provided.

The present invention relates to a multi-layered article comprising at least a specific oriented polyethylene-based film (OPEF) and a specific non-oriented polyethylene-based film (NOPEF). Furthermore, the present invention relates to a method for producing said article and its use as a packaging material.

The use of an aqueous polyurethane dispersion adhesive is described for producing composite foils which are biodisintegratable at home compost conditions where at least two substrates are adhesive-bonded to one another with use of the polyurethane dispersion adhesive, where at least one of the substrates is a polymer foil which is biodisintegratable at home compost conditions. At least 60% by weight of the polyurethane is composed of diisocyanates, polyesterdiols, and at least one bifunctional carboxylic acid selected from dihydroxy carboxylic acids and diamino carboxylic acids, wherein the polyurethane has no melting point above 20 C. or wherein the polyurethane has a melting point above 20 C. with an enthalpy of fusion lower than 10 J/g, and wherein a film of the polyurethane adhesive is biodegradable at home compost conditions.

A cell module is provided. The cell module includes a first substrate; a second substrate disposed opposite to the first substrate; a cell unit disposed between the first substrate and the second substrate; a first thermosetting resin layer disposed between the cell unit and the first substrate; a first protective layer disposed between the cell unit and the first thermosetting resin layer; and a second thermosetting resin layer disposed between the cell unit and the second substrate. The first protective layer includes a first polymer, wherein the cross-linking degree of the first polymer is 0 to 42.3%.

A recyclable, laminated polyolefin film structure comprises two or more film plies laminated to each other. Each ply comprises one or more polyolefin polymers selected from the group consisting of polyolefin homopolymers, copolymers, and terpolymers and mixtures thereof. One or more of the two or more film plies includes one or more barrier layers.

Disclosed is a high-quality, heat-sealable gas barrier-coated cellulose-based substrate, a laminated packaging material comprising the barrier-coated cellulose-based substrate and suitable for heat-sealable packaging of oxygen-sensitive products, and packaging containers made from the laminated packaging material.

Processes are disclosed for separating a first layer from a remainder of a tapered multilayer interlayer sheet, in which the tapered multilayer interlayer sheet is heated, and thereafter the first layer is separated from the remainder of the tapered multilayer interlayer sheet by pulling the first layer and the remainder of the tapered multilayer interlayer sheet in different directions, in a defined orientation, without the tapered multilayer interlayer sheet wrinkling or tearing.