Disclosed are rigid composite board floor coverings and methods of making same. Also disclosed are rigid composite board floor covering installations and methods of making same.

The present disclosure is directed to peelable, heat-sealable lidding films for containers of diverse polymer compositions storing various products such as foodstuffs and pharmaceuticals. The lidding films disclosed herein can be heat-sealed to crystalline polyester trays (CPET), easily peeled, and contain improved antifogging performance by incorporating a non-migratory antifogging additive into the heat sealable layer of the film without deteriorating seal strengths.

A modular glass panel comprising a glass structure having at least one thin glass sheet having a thickness ranging from about 0.5 mm to about 2.0 mm, a backing frame positioned adjacent the glass structure and situated along the perimeter of the glass structure, and a polymer layer intermediate the glass structure and backing frame to adhere the glass structure together with the backing frame. The glass structure can further comprise the at least one thin glass sheet and a second glass sheet having a polymer interlayer therebetween. The backing frame generally has a geometric cross-section with a rounded interior edge adjacent the glass structure to prevent breakage of the structure upon loading or impact of an exterior surface of the structure.

A method of making a laminated glazing including at least two glass sheets bonded to each other by an adhesive interlayer, the method including, prior to assembling the laminated glazing, digital printing of one face, intended to be inside the laminated glazing, of at least one of the two glass sheets after their possible forming/bending, and/or of at least one face of the adhesive interlayer, by a homogeneous organic ink with a viscosity between 1 and 50 mPa.Math.s including 50 to 99% by weight of ultraviolet-curable resin and 0.05 to 20% by weight of scattering particles, and then curing the organic ink under illumination with ultraviolet radiation.

The invention provides composite cushion materials of high breathability and moisture management, multistep softness, and support and methods of making the composite cushion materials. The first layer of the material comprises a warp-knitted sandwich fabric, the second layer comprises a three-dimensional nonwoven fabric, the third layer comprises a perforated ethylene-vinyl acetate (EVA) foam, and the fourth layer comprises a warp-knitted mesh fabric, wherein the second layer is positioned between the first layer and the third layer, and wherein the third layer is positioned between the second layer and the fourth layer. The composite cushion materials are useful in clothing and equipment for wear in high temperature environments.

There is provided a method of manufacturing a thin polarizing plate including: forming a film laminate by attaching a non-stretched polyvinyl alcohol (PVA)-based film to a non-stretched base film, using attractive force therebetween or using an adhesive; stretching the film laminate; attaching a first protective film to the PVA-based film of the stretched film laminate; and separating the PVA-based film having the first protective film attached thereto from the base film.

A recycling method includes providing an EVA insole residual product including an EVA foam material, a film, and a cloth material, placing the EVA insole residual product into an oven, heating the EVA insole residual product to a temperature of 13025 C., and detaching the cloth material from the EVA foam material. The film includes an EVA, and a tackifier. The EVA of the film has a mass proportion of 85-95%. The tackifier has a mass proportion of 5-15%. An antioxidant is appended into the film and has a mass proportion of 0.1% of the total mass of the EVA and the tackifier. After the cloth material is detached from the EVA foam material, the EVA foam material and the film are crushed and kneaded and are recycled.

Transdermal drug delivery devices and systems with improved adhesion are disclosed. The transdermal drug delivery devices, or patches, include an integrated overlay that provides a drug-free adhesive perimeter designed to avoid affecting delivery of drug from the device. Also disclosed are methods of manufacturing the transdermal drug delivery devices that include incorporating an integrated overlay onto a TDS patch.

Embodiments of this disclosure pertain to a laminate including a first substrate, an interlayer and a light responsive material disposed on the first substrate, and a second substrate disposed on the interlayer. The laminate may be complexly curved. The light responsive material may include any one or more of an electrochromic material, a photochromic material, a suspended particle material, a micro-blind material and a liquid crystal material. In one or more embodiments, the laminate comprises a display unit disposed between the first and second substrate. Methods for forming the laminate are also disclosed.

A laminated glass pane includes two glass or polymer panes and at least one connecting polymer film or connecting laminate adhesively bonded therebetween, wherein a cut-out in the connecting polymer film or in the connecting laminate is provided in a partial surface area of the laminated glass pane, and an electronic functional module that has a thickness smaller than the thickness of the connecting polymer film or the connecting laminate is accommodated in the cut-out, wherein the functional module has an electronic functional element that is fixed on a separate thin carrier polymer film on one of the glass or polymer panes, wherein an antenna and/or conductor structure that has a spiral or polygonal-spiral conductor path that surrounds the functional element is printed onto the carrier polymer film.