A liner-label combination is provided for a tamper evident label. The combination includes a label substrate and a liner substrate. The label substrate includes label substrate die cuts that define a top portion, a middle portion, and a bottom portion for the label. The liner substrate includes liner substrate die cuts that correspond to the middle portion of the label. The top portion, middle portion, and bottom portion adapted to be separated from the liner substrate as a single label with a backside of the middle portion including the corresponding liner substrate defined by the liner substrate die cuts. The middle portion of the label adapted to cover an opening of an item and when removed from the opening, the middle portion separates from the top portion and the bottom portion along the label substrate die cuts providing evidence that the opening to the item was exposed.

A disposable absorbent article has a topsheet; a backsheet; an absorbent core disposed between the topsheet and the backsheet; and a first plurality of conforming features in at least the absorbent core or a combination of the absorbent core and the topsheet. At least a portion of the are depressions, wherein the depressions have a depression centerline bisecting a length and/or width of the depression. A first strut forms a first sidewall of the depression opposite a second sidewall of the depression formed by a second strut, wherein neither of the first strut nor the second strut extend longitudinally and/or laterally beyond the depression centerline by more than 0.75 mm.

A decorative panel including a substrate material and decorative top layer, wherein the decorative top layer includes at least one timber layer, wherein the timber layer is a compressed timber layer with a permanent increased density as compared to an original timber layer, wherein the decorative panel is a square or rectangular floor panel which, at, at least one pair of opposite edges, or at both pairs, includes mechanical coupling allowing to couple two of such floor panels to each other such that a locking is created in a vertical direction perpendicular to a plane of the coupled panels, as well as in a horizontal direction perpendicular to a coupled edge and in the plane of the coupled panels, the mechanical coupling being in the substrate material.

Roofing shingles are disclosed that are capable of being attached to a roof deck, underlayment, and/or other roofing shingles and that require fewer mechanical fasteners for attachment. The roofing shingles are formed with a first layer and a second layer of shingle materials that are laminated together, and with the first and second layers further being mechanically attached with indentations, including a first plurality of indentations formed along an upper surface of the first layer and a second plurality of indentations formed along a bottom surface of the second layer at spaced locations along the roofing shingles. A roofing system comprising a plurality of courses of the roofing shingles is also disclosed.

A method of forming a custom air filter is disclosed. In accordance with the method, a first air filter having a first size is provided. A length of support material is also provided and includes a substrate covered with a pressure sensitive adhesive, over which a release layer is disposed. At least a first portion of the first air filter is cut and removed to form a nascent air filter. The length of support material is manipulated to have a channel configuration, and the release layer is removed to expose the pressure sensitive adhesive of the length of support material. The length of support material with the channel configuration is pressed into engagement with the nascent air filter such that the exposed pressure sensitive adhesive bonds to the nascent air filter, thereby forming the custom air filter.

A plurality of workpiece layers of material are disclosed. The plurality of workpiece layers of material include a dual-sided adhesive layer assembly having a first side surface and a second side surface opposite the first side surface. The plurality of workpiece layers of material also include a first substrate layer non-removably-connected to the dual-sided adhesive layer assembly.

A multi-layered element for manufacturing spectacle frames including at least one layer of polymeric material. The multi-layered element is a front piece or a side piece of a spectacle frame. Moreover, the multi-layered element includes at least one layer of metallic material joined to the layer of polymeric material by means of a layer of adhesive material. Also provided is a spectacle frame including one or more multi-layered elements and a method for manufacturing a multi-layered element.

A proposed film (e.g., clear film, protective film, urethane film, polyurethane film, thermoplastic urethane film, ceramic film, or a combination of two or more films, or the like) and method of installing the proposed film will enhance and protect any polycarbonate or acrylic surfaces. The proposed film and proposed method for installing the proposed film is designed to solve the issues inherent in the soft polycarbonate and acrylic materials or substrate. For example, polycarbonate and acrylic substrates with a hardness level of 3-4 do not have the same scratch resistance or self-healing properties as the proposed film's 9 hardness level. By applying the proposed film to existing polycarbonate or acrylic, we get all the benefits of the proposed film, enhancing the substrate to which it is applied.

A method of embedding an embeddable object into a stacked substrate is provided. The method may include forming a stacked substrate including a first layer and a second layer disposed over the first layer, and embedding material disposed between the first layer and the second layer. The embeddable object is disposed into a recess of the stacked substrate. A portion of the embedding material is transferred from a high viscosity or solid state into a low viscosity state so that at least a portion of the embedding material flows into the recess to laterally fix the embeddable object within the recess to the stacked substrate.

A low-weight carpet tile and process for making the same, wherein the carpet tile comprises a facecloth having a plurality of face yarns tufted through a primary backing, an extruded polymer secondary backing layer, and a reinforcing scrim layer partially embedded within the extruded polymer secondary backing layer. The top surface and bottom surface of the carpet tile are defined by the facecloth and the reinforcing scrim layer, respectively. A polymer-based resin is extruded onto the facecloth to form an at least substantially uniform secondary backing layer, and the reinforcing scrim layer is laid onto the extruded polymer secondary backing layer while the extruded polymer secondary backing layer remains above a softening temperature for the resin. The entire multi-layer web is then passed through a nip to embed the reinforcing scrim layer into the extruded polymer secondary layer, and the entire web is chilled.