A drug resistant laminate is provided. The drug resistant laminate includes a polyamide sealing layer, an aluminum foil layer, and a support layer. The polyamide sealing layer is configured to contact a drug. The aluminum foil layer is affixed to the polyamide sealing layer via a first lamination layer. The support layer is affixed to the aluminum foil layer via a second lamination layer. The polyamide sealing layer may be a coextruded layer including a sealing sublayer arranged to contact the drug and a backing sublayer arranged to be affixed to the aluminum foil layer via the first lamination layer. A melting point of the sealing sublayer may be is less than a melting point of the backing sublayer. Similarly, a melting point of the support layer may be greater than the melting point of the backing sublayer of the polyamide sealing layer.

A drug resistant laminate is provided. The drug resistant laminate includes a polyamide sealing layer, an aluminum foil layer, and a support layer. The polyamide sealing layer is configured to contact a drug. The aluminum foil layer is affixed to the polyamide sealing layer via a first lamination layer. The support layer is affixed to the aluminum foil layer via a second lamination layer. The polyamide sealing layer may be a coextruded layer including a sealing sublayer arranged to contact the drug and a backing sublayer arranged to be affixed to the aluminum foil layer via the first lamination layer. A melting point of the sealing sublayer may be is less than a melting point of the backing sublayer. Similarly, a melting point of the support layer may be greater than the melting point of the backing sublayer of the polyamide sealing layer.

A fiber reinforced resin hollow molded body 30 in which a resin-integrated fiber sheet is used. The resin-integrated fiber sheet includes unidirectional continuous fibers that are spread fibers of a continuous fiber group and arrayed unidirectionally in parallel, and thermoplastic resin that is present at least on a surface of the unidirectional continuous fibers. In the hollow molded body, in a state where the resin-integrated fiber sheet or a plurality of the resin-integrated fiber sheets 30 are stacked, the resin-integrated fiber sheet or the plurality of resin-integrated fiber sheets are wound to produce a wound body having an overlapping portion. The thermoplastic resin is impregnated in the unidirectional continuous fibers. The resin-integrated fiber sheet or the plurality of resin-integrated fiber sheets are consolidated.

A film and method of improving printing on the film. The film is a cross-laminate of an outer film layer including a high-density polyethylene partially impregnated with a filler such as calcium carbonate and a second film layer cross-laminated to the outer layer and including a high-density polyethylene, optionally with the filler. An adhesive layer is disposed between, and adhered together, the outer film layer and the second film layer. All layers are desirably polyethylene and coextruded. The outer surface including the filler is corona treated for improving printing.

A film and method of improving printing on the film. The film is a cross-laminate of an outer film layer including a high-density polyethylene partially impregnated with a filler such as calcium carbonate and a second film layer cross-laminated to the outer layer and including a high-density polyethylene, optionally with the filler. An adhesive layer is disposed between, and adhered together, the outer film layer and the second film layer. All layers are desirably polyethylene and coextruded. The outer surface including the filler is corona treated for improving printing.

A method of manufacturing a panel for an article of apparel includes stretching a base layer from a resting configuration to a stretched configuration. The method further includes coupling a reinforcement layer to the base layer when the base layer is in the stretched configuration. The method also includes applying an auxetic structure to the reinforcement layer when the base layer is in the stretched configuration. The auxetic structure includes a plurality of interconnected members defining a repeating pattern of voids, and each void has a reentrant shape. The method further includes releasing the base layer to allow the base layer to return to the resting configuration.

A method of manufacturing a panel for an article of apparel includes stretching a base layer from a resting configuration to a stretched configuration. The method further includes coupling a reinforcement layer to the base layer when the base layer is in the stretched configuration. The method also includes applying an auxetic structure to the reinforcement layer when the base layer is in the stretched configuration. The auxetic structure includes a plurality of interconnected members defining a repeating pattern of voids, and each void has a reentrant shape. The method further includes releasing the base layer to allow the base layer to return to the resting configuration.

A pouch includes a packaging material. The packaging material includes a first film composed of machine direction oriented polyethylene oriented in a machine direction corresponding to a direction orthogonal to an up-down direction of a pouch and a second film laminated on the first film. The second film has tensile breaking stress in a transverse direction corresponding to the up-down direction of the pouch of 50 MPa or more.

A method for producing elastic laminates includes gripping first and second continuous elastic films in respective gripping zones by respective first and second stretching members, transversely stretching the first and second continuous elastic films by rotating said first and second stretching members about respective first and second axes of rotation inclined with respect to each other, and releasing the transversely stretched first and second continuous elastic films from the respective first and second stretching members in respective release zones aligned along a common transverse release line.

Disclosed is multilayer film having a plurality of layers including a thickest layer containing 1 to 25 wt. % of a silica gel having an average particle size of 1 to 10 microns, and at least 50 wt. % of at least one polyolefin, wherein: (a) the thickest layer is voided by the silica gel; (b) the multilayer film is a uniaxially oriented film having an opacity greater than 10, and a density of less than 1 g/cc; and (c) the multilayer film has a shrinkage of at least 20% in a machine direction or a transverse direction of formation when heated to a temperature of 80 C.-100 C. A label and a flexible package composed of the film are also disclosed.