Abstract: A multi-layer exercise mat including a first layer including an outer surface and an opposing inner surface, the opposing inner surface of the first layer including a first array of three-dimensional features integral with the first layer; and a second layer including an outer surface and an opposing inner surface, the opposing inner surface of the second layer including a second array of three-dimensional features integral with the second layer. The first and second arrays of three-dimensional features are configured to grip each other to removably secure the inner surface of the first layer to the inner surface of the second layer.

Abstract: A space-stable thin film composite coating is provided that exhibits high IR emittance properties similar to OSR mirrors, and which is thin enough to be applied to a flexible substrate. The composite coating can include hundreds of alternating layers of aluminum oxide and silicon dioxide vacuum deposited to individual layer thickness of about 150 Angstroms and 50 Angstroms, respectively. The composite coating can be attached to substrates having complex geometries, for example, at various points during integration and production of hardware. The thin film can increase thermal design efficiency, reduce radiator mass and costs, and reduce production time-frames by eliminating the complexity of OSR mirror bonding.

Abstract: The disclosure relates to a photocatalytic structure. The photocatalytic structure includes a substrate, a photocatalytic active layer, and a metal layer. The substrate, the photocatalytic active layer, and the metal layer are arranged in succession. The substrate includes a base and a patterned bulge layer on a surface of the base. The patterned bulge layer is a net-like structure comprising a plurality of strip-shaped bulges intersected with each other and a plurality of indents defined by the plurality of strip-shaped bulges. The plurality of strip-shaped bulges is an integrated structure. The photocatalytic active layer is on the surface of the patterned bulge layer. The metal layer includes a plurality of nanoparticles located on the surface of the photocatalytic active layer away from the substrate.

Abstract: Multi-layer substrates comprising a top surface layer of pulp fibers, a bottom surface layer of pulp fibers, and a melted thermoplastic material layer between the pulp fiber layers, where the thermoplastic material comprises polyethylene or has a tan delta value of 0.2 to 0.4 within the temperature range of 100° F. to 350° F. The multi-layer substrate can include a cleaning composition loaded onto the multi-layer substrate, where a fluid pathway through the melted thermoplastic material allows the cleaning composition to travel from the top surface layer to the bottom surface layer. The multi-layer substrate may be void of chemical adhesives, where adhesion between the top surface layer and the thermoplastic layer, and between the bottom surface layer and the thermoplastic layer is instead provided by the thermoplastic material itself, which bonds to groups of fibers in the pulp fibers top and bottom surface layers that are in contact with the thermoplastic material as it melts.

Abstract: The invention relates to microwave-resistant mouldings comprising at least one amorphous or microcrystalline copolyamide moulding compound, comprising at least one amorphous or microcrystalline copolyamide (A), said copolyamide (A) containing at least the following monomers: (a) at least one cycloaliphatic diamine, (b) 0.25 to 30 mol % of at least one dimeric fatty acid and (c) at least one aromatic dicarboxylic acid, where the proportions of all the monomers add up to 100 mol % and which has a glass transition temperature of at least 155° C. and a dielectric loss factor tan ? of not more than 8.30×10?3. The invention also relates to the use of an amorphous or microcrystalline copolyamide moulding compound comprising the copolyamide (A) for production of microwave-resistant mouldings.

Abstract: A thermal interface material is disclosed. The material includes: a sheet extending between a first major surface and a second major surface, the sheet including: a base material; and a filler material embedded in the base material. The base material may include anisotropically oriented thermally conductive elements. In some embodiments, the thermally conductive elements are preferentially oriented along a primary direction from the first major surface towards the second major surface to promote thermal conduction though the sheet along the primary direction. In some embodiments, the base material is substantially free of silicone. In some embodiments, the thermal conductivity of the sheet along the primary direction is at least 20 W/mK, 30 W/mK, 40 W/mK, 50 W/mK, 60 W/mK, 70 W/mK, 80 W/mK, 90 W/mK, 100 W/mK, or more.

Abstract: According to one embodiment, a product includes a composite film comprising a polymer layer directly adjacent a graphene layer. According to another embodiment, a process includes layering a graphene layer onto a polymer layer to form a composite film.

Abstract: Embossed tissue products having improved strength and softness are disclosed. The products as described have a continuous curvilinear emboss element which carries discrete emboss elements, thereby providing the product with the softness and handfeel benefits associated with the long linear elements, but the visual appearance of discrete emboss elements.

Abstract: A method of making a polymer article comprises the steps of making a polymer solution by mixing a first compound containing carbodiimide groups with a second compound containing carboxylated groups, applying the polymer solution to a former, wherein the step of applying occurs within 2 hours of the making of the polymer solution, and curing the polymer solution. The polymer solution can have a pH adjuster consisting of ammonium hydroxide.

Abstract: Methods and apparatus to increase fire resistance and fracture toughness of composite structures are described. An example multi-ply composite structure has at least eleven plies including an innermost ply forming a first external surface of the multi-ply composite structure, and an outermost ply forming a second external surface of the multi-ply composite structure, with the second external surface being located opposite the first external surface. The at least eleven plies further include at least one and no more than three fire-resistant plies positioned between the innermost ply and the outermost ply within either an innermost 33% of the at least eleven plies or an outermost 33% of the at least eleven plies. Respective ones of the fire-resistant plies include an epoxy-based resin and a first additive mixed into the epoxy-based resin. The first additive increases a flammability resistance of the multi-ply composite structure.

Abstract: A polymeric film is provided, the film comprising one or more land portions that are substantially coplanar in a base plane and a plurality of distended portions separated from one another by the one or more land portions. The distended portions bow distally outward from the base plane. The polymeric film further comprises a plurality of annular micro-protrusions extending outward from the distal film surface, each protrusion having an apex. A portion of the plurality of annular micro-protrusions extends from each of the one or more land portions of the polymeric film and from each of the distended portions of the polymeric film.

Abstract: A spacer textile material may include a first layer, a second layer, and a plurality of connecting members extending between and joining the first layer and the second layer. The connecting members may form a series of at least ten rows that are separated by spaces. The rows have a width that is less than a width of the spaces, and the connecting members form at least one stabilizing row with a width that is greater than the width of the spaces.

Abstract: Polysaccharide filaments and fibrous structures containing such polysaccharide filaments and more particularly polysaccharide filaments that exhibit birefringence are provided.

Abstract: A glass article includes a glass substrate, a colored film formed on one of main surfaces of the glass substrate, an uncoated portion where no colored film is formed which is present in part of the one of main surfaces or on an edge face of the glass substrate, a boundary between the colored film and the uncoated portion, and a film thickness varying portion where the colored film gradually tapers in thickness toward the boundary. The uncoated portion is visible in the glass article used as a window, the glass substrate has an absorbance in the wavelength range of 380 nm to 780 nm of 0.10 or lower per mm of thickness, and the glass article has a portion blue in color, gray in color, or pink in color where the colored film is formed.

Abstract: The invention concerns a gypsum plasterboard (10) comprising at least an upper gypsum layer (16) having a first density, first hardness and first thickness and a lower gypsum layer (17) having a second density, a second hardness and a second thickness. The first density is lower than the second density and/or the first hardness is lower than the second hardness, and the first thickness is lower than the second thickness. The plasterboard according to the invention are heavy or dense plasterboards with an enhanced fixing ability.

Abstract: The present invention relates to a laminated liquid food packaging material, comprising a bulk layer of paper or carton or other cellulose-based material and outer layers of thermoplastic polymers on both sides, having a decorative print pattern arranged beneath one of the outer thermoplastic polymer layers. The invention further relates to the method for manufacturing the laminated packaging material and to a packaging container for liquid food packaging, comprising the laminated packaging material.

Abstract: Embodiments are directed to strengthened glass articles comprising a thickness t?1 mm (1000 ?m), an inner region under a central tension CT (in MPa), and at least one compressive stress layer adjacent the inner region and extending within the strengthened glass article from a surface of the strengthened glass article to a depth of layer DOL (in ?m), wherein the strengthened glass article is under a compressive stress at the surface CSs (in MPa), wherein the strengthened glass article is an alkali aluminosilicate glass article comprising 0-5 mol % Li2O, and at least 3 mol % Al2O3, and wherein the DOL?70 ?m, and a CSs/DOL ratio?2.5 MPa/?m.

Abstract: Patterned substrates having a first substrate region that is incrementally mechanically stretched with corrugations and a second substrate region having a plurality of discrete unstretched portions completely surrounded by the first substrate region.

Abstract: A monocrystalline semiconductor wafers have an average roughness Ra of at most 0.8 nm at a limiting wavelength of 250 ?m, and an ESFQRavg of 8 nm or less given an edge exclusion of 1 mm. The wafers are advantageously produced by a method comprising the following steps in the indicated order: a) simultaneous double-side polishing of the semiconductor wafer, b) local material-removing processing of at least one part of at least one side of the semiconductor wafer using a fluid jet which contains suspended hard substance particles and which is directed onto a small region of the surface with the aid of a nozzle, wherein the nozzle is moved over that part of the surface which is to be treated in such a way that a predefined geometry parameter of the semiconductor wafer is improved, and c) polishing of the at least one surface of the semiconductor wafer.

Abstract: An article comprises a body and at least one protective layer on at least one surface of the body. The at least one protective layer is a thin film having a thickness of less than approximately 20 microns that comprises a ceramic selected from a group consisting of Y3Al5O12, Er2O3, Er3Al5O12, and a ceramic compound comprising Y4Al2O9 and a solid-solution of Y2O3—ZrO2.