The present invention relates to drying processes for composite films comprising a polyvinyl acetal on a carrier as well as to composite films and polyvinyl acetal films obtained in such processes.

A metal composite including an oxidized base metal and a fibrous composite material coupled by a self-assembled monolayer and adhesive is described. Additionally, a method of constructing a metal composite is described, wherein the method includes oxidizing a metal, depositing a self-assembled monolayer, and adhering a fibrous composite to the monolayer.

A nonwoven web having a first web layer and a second web layer are disclosed herein. Methods of making such webs and absorbent articles including those webs are also disclosed. The first web layer has a core/sheath first composite fiber having a fiber fineness no greater than about 2.5 denier. The second web layer has a core/sheath second composite fiber having a fiber fineness no greater than about 2.5 denier and a homopolymer fiber having a fiber fineness of greater than about 3 denier. The homopolymer fiber is less than about 30% by weight of the second web layer.

A metal composite including an oxidized base metal and a fibrous composite material coupled by a self-assembled monolayer and adhesive is described. Additionally, a method of constructing a metal composite is described, wherein the method includes oxidizing a metal, depositing a self-assembled monolayer, and adhering a fibrous composite to the monolayer.

Methods of bonding polyester substrates together, comprising externally delivering thermal energy onto the bonding surfaces of the substrates and bringing the bonding surfaces into proximity with each other and bonding the substrates to each other.

This method of laminating a functional film onto an optical article includes: thermoforming the functional film so as to provide the functional film with a predetermined target curvature based on a curvature of a face of the optical article on which the functional film is to be applied; applying the functional film onto that face of the optical article; pressing the functional film against that face of the optical article so as to adhere the functional film to that face of the optical article. This method further includes heating the functional film at at least one predetermined temperature after the applying, so that the functional film conforms to the curvature of that face of the optical article.

The present invention relates to a method for producing a multi-layer substrate, said substrate comprising a multifunctional coating, and to the use of the substrate produced by this method.

A spunbond nonwoven laminate has a first spunbond nonwoven layer having crimped filaments formed by a first component on an outer surface of the filaments of the first layer consisting or substantially consisting of a polyolefin and a second component consisting or substantially consisting of a plastic having a higher melting point than the polyolefin of the first component of the filaments of the first layer. A second outermost spunbond nonwoven layer on the first layer having filaments as a cover layer and formed by a first component on an outer surface of the filaments of the second layer consisting or substantially consisting of a polyolefin, and a second component consisting or substantially consisting of a plastic having a higher melting point than the polyolefin of the first component of the filaments of the second layer.

Prior art teaches to apply strands of a hot melt adhesive on a primary backing of a textile product, such as a carpet or carpet tile, before adhering a secondary backing. In some cases, all portions of the strands may not contribute to the adhesion strength. Adjusting the viscosity of the hot melt adhesive may make the strands less flexible as they lay across the irregular features of the backstitching of a primary backing so they provide greater adhesion to the secondary backing. Alternatively, applying the hot melt adhesive to the secondary backing will also be used to create sufficient adhesion. Preferentially, using an air knife to prevent the strands from forming and/or to press the hot melt adhesive into the primary backing may also be used to create sufficient adhesion. These methods provide greater adhesion between the primary and secondary backings with less hot melt adhesive.

Prior art teaches to apply strands of a hot melt adhesive on a primary backing of a textile product, such as a carpet or carpet tile, before adhering a secondary backing. In some cases, all portions of the strands may not contribute to the adhesion strength. Adjusting the viscosity of the hot melt adhesive may make the strands less flexible as they lay across the irregular features of the backstitching of a primary backing so they provide greater adhesion to the secondary backing. Alternatively, applying the hot melt adhesive to the secondary backing will also be used to create sufficient adhesion. Preferentially, using an air knife to prevent the strands from forming and/or to press the hot melt adhesive into the primary backing may also be used to create sufficient adhesion. These methods provide greater adhesion between the primary and secondary backings with less hot melt adhesive.