A method for forming a textile strap and the resulting textile strap includes forming a textile matrix by stacking in alternating order at least one first material layer on at least one second material layer. The at least one first material layer is bonded to the at least one second material layer in a manner to fix the at least one first material layer to the at least one second material layer. A plurality of apertures are cut into the formed textile matrix. The apertures are cut in from an edge of the textile matrix inward such that the resulting textile matrix with defined apertures is predictably flexible in each of two directions. The the resulting textile matrix with defined apertures is sheathe in a formed knit outer layer configured to substantially enclose the resulting textile matrix with defined apertures. The knit outer layer is bonded to the textile matrix.

A system and method for bonding together a facesheet and an acoustic screen of an acoustic liner using a solid adhesive film having a first adhesive side opposite a second adhesive side are provided. The system includes a solid adhesive film having a first adhesive side opposite a second adhesive side; an acoustic screen bonded to the first adhesive side of the solid adhesive film; and a facesheet bonded to the second adhesive side of the solid adhesive film. The method includes bonding the facesheet to the first adhesive side of the solid adhesive film and bonding the acoustic screen to the second adhesive side of the solid adhesive film.

A system and method for bonding together a facesheet and an acoustic screen of an acoustic liner using a solid adhesive film having a first adhesive side opposite a second adhesive side are provided. The system includes a solid adhesive film having a first adhesive side opposite a second adhesive side; an acoustic screen bonded to the first adhesive side of the solid adhesive film; and a facesheet bonded to the second adhesive side of the solid adhesive film. The method includes bonding the facesheet to the first adhesive side of the solid adhesive film and bonding the acoustic screen to the second adhesive side of the solid adhesive film.

A sound-absorbing non-combustible ceiling material and a method for manufacturing the same are disclosed. The method (S100) for manufacturing the sound-absorbing non-combustible ceiling material installed in a ceiling of a building includes a panel processing step (S1000) of processing each of a first panel including a metal and a second panel absorbing a sound wave; and a panel attaching step (S2000) of attaching the first panel and the second panel. The first panel includes a plurality of openings, and the first panel and the second panel are coupled by an adhesive layer to form the sound-absorbing non-combustible ceiling material.

A sound-absorbing non-combustible ceiling material and a method for manufacturing the same are disclosed. The method (S100) for manufacturing the sound-absorbing non-combustible ceiling material installed in a ceiling of a building includes a panel processing step (S1000) of processing each of a first panel including a metal and a second panel absorbing a sound wave; and a panel attaching step (S2000) of attaching the first panel and the second panel. The first panel includes a plurality of openings, and the first panel and the second panel are coupled by an adhesive layer to form the sound-absorbing non-combustible ceiling material.

A packaging material including a film that is biodegradable and compostable, wherein at least one aperture is formed in the film. The at least one aperture is structured and distributed such that the film controls oxygen permeability and water vapor permeability to such an extent that when the film encompasses a food product that is initially fresh the food product will remain fresh for at least one additional day when compared with the case that the film is replaced by a plastic that is not biodegradable and compostable.

A packaging material including a film that is biodegradable and compostable, wherein at least one aperture is formed in the film. The at least one aperture is structured and distributed such that the film controls oxygen permeability and water vapor permeability to such an extent that when the film encompasses a food product that is initially fresh the food product will remain fresh for at least one additional day when compared with the case that the film is replaced by a plastic that is not biodegradable and compostable.

Elasticized absorbent articles containing weakened elasticized portions and methods of manufacture are disclosed. A method comprises applying a first amount of adhesive to a first portion of at least one of the first web of material and the elastic strand, applying a second amount of adhesive to a second portion of at least one of the first web of material and the elastic strand, covering the elastic strand with either the first surface of the first web of material or a first surface of a second web of material to form an elasticized web. The elasticized web comprises a heavy bonding region and a light bonding region, wherein the heavy bonding region comprises a greater area density of adhesive than the light bond region. Finally, the method may further comprise partially weakening the waist panel elastic strand at least at one location within the second region.

Elasticized absorbent articles containing weakened elasticized portions and methods of manufacture are disclosed. A method comprises applying a first amount of adhesive to a first portion of at least one of the first web of material and the elastic strand, applying a second amount of adhesive to a second portion of at least one of the first web of material and the elastic strand, covering the elastic strand with either the first surface of the first web of material or a first surface of a second web of material to form an elasticized web. The elasticized web comprises a heavy bonding region and a light bonding region, wherein the heavy bonding region comprises a greater area density of adhesive than the light bond region. Finally, the method may further comprise partially weakening the waist panel elastic strand at least at one location within the second region.

A method of making a metal foil heater comprising transferring a line image of a heater circuit to cutter and cutting the foil into a metal foil construction before affixing plastic sheets to both sides while attaching wires configured to supply current to the heater.