Abstract: There is a ballistic shield and a method of manufacture thereof, including a first ballistic shield plate having a first double-layered UV protective film bonded to a first side and forming an exterior surface thereof. The ballistic shield also includes a second ballistic shield plate having a first side, wherein the first side is fastened to the first side of the first ballistic shield plate. The second ballistic shield plate includes a second double-layered UV protective film, bonded to a first side thereof and forming an exterior surface thereof. The ballistic shield further includes a mechanical fastener fastening the first ballistic shield plate to the second ballistic shield plate such that the first double-layered UV protective film is fixedly coupled against the second double-layered UV protective film without requiring bonding therebetween.

Abstract: Extreme ultraviolet (EUV) mask blanks, methods for their manufacture and production systems therefor are disclosed. The EUV mask blanks comprise a substrate; a multilayer stack of reflective layers on the substrate; a capping layer on the multilayer stack of reflecting layers; and an absorber layer on the capping layer, the absorber layer made from carbon and antimony.

Abstract: Extreme ultraviolet (EUV) mask blanks, methods for their manufacture and production systems therefor are disclosed. The EUV mask blanks comprise a substrate; a multilayer stack of reflective layers on the substrate; a capping layer on the multilayer stack of reflecting layers; and an absorber layer on the capping layer, the absorber layer made from tantalum and antimony.

Abstract: Extreme ultraviolet (EUV) mask blanks, methods for their manufacture and production systems therefor are disclosed. The EUV mask blanks comprise a substrate; a multilayer stack of reflective layers on the substrate; a capping layer on the multilayer stack of reflecting layers; and an absorber layer on the capping layer, the absorber layer made from tellurium, germanium and antimony.

Abstract: The invention relates to a head-up display system, in particular in the form of a head-up display system for displaying graphical elements on the windshield (2) of a motor vehicle, with a projection unit (7) arranged in the area of the front vehicle dashboard (5) of the motor vehicle, which is configured to emit preferably p-polarized light rays (28) preferably in the direction of a part of the windshield (2) providing a projection surface (8), wherein the windshield (2) is configured to reflect the light rays emitted by the projection unit (7).

Abstract: A hearth pad for live ember protecting a floor. The hearth pad comprises a backing for being placed onto the floor. The backing is made of a flexible sheet material. A plurality of tiles is disposed on the backing and adhered thereto using a flexible adhesive. The tiles are made of a rigid material. A flexible filler is disposed in gaps between adjacent tiles.

Abstract: A method of fabricating a mask blank includes depositing a reflective multilayer over a substrate, depositing a capping layer over the reflective multilayer, depositing an absorber layer over the capping layer, and depositing an anti-reflective coating (ARC) layer over the absorber layer. The ARC layer is a single material film.

Abstract: A fabric-based item may include fabric formed from intertwined strands of material. The strands of material may include extruded strands. Strand extrusion equipment may have electrically adjustable sources such as one or more sources of different polymers, dyes, particles, wire, and other elements to be incorporated into an extruded strand. The properties of the strands such as strand stiffness, strand diameter, conductivity, magnetic permeability, opacity, color, thermal conductivity, sand strength, may be varied along their lengths. Fabric formed from the strands may have different areas with different properties. Markers may be formed from particles at particular locations along the lengths of the strands, may be optical marker structures formed from circumferential rings of ink or other visible material on the strands, or may be other markers that can be sensed using electrical sensing, magnetic sensing, optical sensing, or other types of sensing when forming fabric from the strands.

Abstract: Provided are composite materials that possesses an excellent flexural modulus and impact resistance, while being lightweight, and which composite material has excellent impact resistance particularly at low temperatures.

Abstract: Resin compositions, layers, and interlayers comprising a poly(vinyl acetal) resin that includes residues of an aldehyde other than n-butyraldehyde are provided. Such compositions, layers, and interlayers can exhibit enhanced or optimized properties as compared to those formulated with comparable poly(vinyl n-butyral) resins.

Abstract: The present inventions relates to a substrate for a photolithographic mask comprising a coating deposited on a rear surface of the substrate, wherein the coating comprises (a) at least one electrically conducting layer, and (b) wherein a thickness of the at least one layer is smaller than 30 nm, preferably smaller than 20 nm, and most preferably smaller than 10 nm.

Abstract: A color acceptor for chemical reaction with a dye precursor to form a visually recognizable color. The color acceptor is constructed of lactic acid monomers. Also disclosed is a heat-sensitive recording material with a substrate and a heat-sensitive recording layer, wherein the heat-sensitive recording layer contains at least one dye precursor and at least one color acceptor which react with one another in a color-forming manner when heat is applied, and wherein the color acceptor is constructed of lactic acid monomers.

Abstract: The mechanical properties of urea formaldehyde resins may be improved by incorporating therein polyvinyl alcohol. The polyvinyl alcohol may be incorporated during pre-mixing, mid mixing, and/or post mixing of the resin components. Resins prepared using polyvinyl alcohol are particularly desirable in articles requiring improved mechanical strength and water resistance, as compared to similar resins prepared without the polyvinyl alcohol such as shingles.

Abstract: Provided are a traffic signal housing and a road sign which are higher in weather resistance and lighter in weight as compared with conventional traffic signal housings and road signs using metal plates. A traffic signal housing and a road sign each made of a high-strength fiber composite in which a surface of a prepreg in which a thermoplastic resin has been combined with a sheet-shaped high-strength fiber including carbon fiber or basalt fiber has been coated with a thermosetting resin, wherein the prepreg is one prepared b thermally pressing a laminate in Which a sheet-shaped thermoplastic resin and said sheet-shaped high-strength fiber have been laminated together in a sandwich structure, are high in weather resistance to salt damage and so on, and moreover since they are lightweight, poles with reduced strength can be used therefor.

Abstract: A first multilayer film is a multilayer film which contains a layer A on at least one surface of a base film, in which the layer A has (1) a polycaprolactone segment, (2) a polysiloxane segment and/or a polydimethyl siloxane segment, and (3) a urethane bond, and the layer A has a glass transition temperature of from ?30 to 0° C. A second multilayer film contains a layer A on at least one surface of a base film, in which the layer A has a scratch recovery time of 3 seconds or less at a temperature of 10° C. A third multilayer film contains a layer B on at least one surface of a base film, in which the layer B has a polycaprolactone segment and a urethane bond, and the layer B has average elongation at break of 65% or more at 80° C. to 150° C.

Abstract: Apparatus and methods are disclosed for a safety door of an oven having glass therein with a plastic laminate. The safety door retains glass within the door in order to prevent glass from falling or being forced outside of the oven, which may cause injury.

Abstract: Cutting elements include a substrate, a polycrystalline table, and an asymmetric interface feature. The interface feature includes a shape that is reflectively asymmetric about at least two planes defined by x, y, and z axes of a Cartesian coordinate system defined to align a z axis of the coordinate system with the central axis of the substrate and to locate a center of the coordinate system at a midpoint along an axial height of the asymmetric interface feature. Methods of forming a cutting element involve: forming an asymmetric interface feature at an end of a substrate; distributing a plurality of superhard particles on the substrate over the asymmetric interface feature in a mold; and bonding the superhard particles in the mold to form a polycrystalline table attached to the substrate.

Abstract: The invention relates to a safety agglutination glass structure, comprising two glass substrates and a heat insulating adhesive membrane. The heat insulating adhesive membrane constituted of heat insulating particles and a colloid material is disposed between the two glass substrates. Therefore, the two glass substrates can combine together by heating and pressurizing for the purpose of simplifying processing procedures, reducing the costs and preventing distortion.

Abstract: Disclosed is an eco-friendly and high-strength resin composite material which has high-strength and light weight properties. The eco-friendly and high-strength resin composite material according to the present invention includes: a first base material; a reinforcing material layer formed on the first base material and having a fibrous reinforcement; and a second base material formed on the reinforcing layer. The first base material and/or the second base material are made with a biodegradable resin, such as the PLA and PHA resins.

Abstract: A method for manufacturing a flexible substrate comprises the steps of: providing a supporting plate; coating a first flexible layer on a side of the supporting plate; forming a barrier layer on the first flexible layer at its side opposite to the supporting plate, the barrier layer comprises multiple films stacked on top of one another; and coating a second flexible layer on the barrier layer at its side opposite to the first flexible layer, the barrier layer is coated by the first and second flexible layer.

Abstract: The present invention relates to a glass pane construction, particularly bullet proof glass pane, to be used in a motor vehicle, having several transparent panes and layers made of glass, ceramic or synthetic material, which are connected in a layered manner connected to each other in a laminate, electrical controllable or switchable electrochromic layer means for electrical controlling or switching of the light transparency of the glass pane construction or of the bullet proof pane, wherein a laminar transparent UV filtering layer means for filtering of striking ultraviolet (UV) radiation is provided so that none or only a part of the UV radiation passes to the electrochromic layer means.

Abstract: A heat insulating member including at least one cholesteric resin layer having cholesteric regularity controlled such that, in a wavelength range of 800 nm to 2,500 nm, the cholesteric resin layer has a band of reflecting 40% or more of incident light with a wavelength width equal to or wider than 300 nm; and a binder layer containing a pigment, the heat insulating member having a yellow index of 2.0 or lower.

Abstract: Provided are a biaxially stretched laminated polyester film and a laminated glass composed of the same. Specifically, the invention is achieved by a biaxially stretched laminated polyester film including 51 layers or more in total, in which a first layer and a second layer are alternately laminated, wherein a polyester (A) constituting the first layer is polyethylene-2,6-naphthalenedicarboxylate; a polyester (B) constituting the second layer is a polyester containing at least one of an ethylene terephthalate component and an ethylene naphthalene dicarboxylate component; an average reflectance within a wavelength range of 400 to 750 nm is not more than 25%; an average reflectance within a wavelength range of 800 to 1,200 nm is 50% or more; and a Young's modulus of the film at 90° C. is 2,400 MPa or more in at least one direction of the longitudinal direction and the lateral direction of the film.

Abstract: Disclosed is a core member for a vacuum insulation material, the core member having high initial insulation performance and radiant heat blocking performance, and the vacuum insulation material using same. The vacuum insulation material according to the present invention comprises a plurality of core layers, a radiant heat blocking film which is disposed between the plurality of core layers, and an outer skin material which vacuum-packs the core layers and the radiant heat blocking film.

Abstract: Glass sheets according to the invention, in particular lacquered glass sheets, are covered with a coating of enamel. This coating comprises between 11 and 40% of organic material. Such glass sheets may be heat treated and, before heat treatment, may be handled and transported without damaging the coating, may be cut and ground without causing the coating to peel off or to be damaged at the borders of the cutting line, and offer a good resistance under running water, avoiding the peeling off or destruction of the coating during edges grinding or storage or transportation.

Abstract: Some embodiments include a method of providing an electronic device structure. Other embodiments for related methods and electronic device structures are also disclosed.

Abstract: A method for producing a film having luminescent particles is described. The method has steps a) mixing a thermoplastic and a luminescent pigment containing a hydroxyalkyl terephthalate of the formulate: R1—COO—P(OH)x-COO—R2 and obtaining a thermoplastic mixture; and b) homogenizing the thermoplastic mixture to 150° C. to 200° C. in an extruder, by way of an extrusion nozzle, and obtaining a thermoplastic film.

Abstract: A multi-layer sheet structure is provided. The multi-layer sheet structure comprises at least one structural layer comprising high impact polystyrene and at least one moisture barrier layer comprising greater than about 30 percent cyclic olefin copolymer by weight of the at least one moisture barrier layer.

Abstract: The invention relates to a polymer material comprising a mixture of: a base polylactic acid (PLA) polymer formed by between 60 wt.-% and 85 wt.-% L units and between 15 wt.-% and 40 wt.-% D units or between 60 wt.-% and 85 wt.-% D units and between 15 wt.-% and 40 wt.-% L units; and a plasticiser selected from the group containing citric acid esters, glycerin esters and derivatives, poly(alkylene ethers), oligomers of lactide or derivatives of lactic acid, fatty acid esters and epoxidised oils, representing between 10 wt.-% and 40 wt.-% in relation to the total weight of the polymer material.

Abstract: A polymer composition is disclosed that contains a thermoplastic elastomer combined with an ?-olefin and vinyl acetate copolymer. In one embodiment, the composition contains a thermoplastic polyester elastomer combined with an ethylene and vinyl acetate copolymer. Various synergistic effects may be realized by combining the two polymers together. In particular, a resulting polymer mixture can be produced that has many of the properties of the thermoplastic elastomer and also has controlled melt flow properties. In addition, the polymer composition may have improved and controllable mechanical and thermal properties and color stability. The polymer composition may be processed using injection molding, blow molding, or extrusion and may undergo secondary processing.

Abstract: Biaxially oriented polyester films including polyester polymer, a carbodiimide hydrolysis stabilizer, and a UV absorber are described. The polyester films have a carboxyl end group concentration of 5-20 equivalents per ton, and a haze value of 2% or less. The films exhibit superior transparency and possess stable light transmission characteristics. Methods of making the films and articles produced from the films are also described.

Abstract: Polyester materials, methods for making polyesters materials, and uses of the polyester materials in binder materials and articles of manufacture are disclosed. In one embodiment, a process is provided for preparing a polyester solution, including mixing monomers of at least one organic acid containing at least three carboxylic groups and at least one multi-hydroxyl alcohol containing at least three hydroxyl groups to form a reaction mixture, heating the reaction mixture to a first temperature, polymerizing the monomers at the first temperature until reaching an acid value from about 200 to about 400 mg KOH/g, adjusting the temperature to a second temperature less than the first temperature, and forming the polyester solution. The polyester materials may be mixed with cross-linking materials to form binder materials. The binder material may then be used to form articles of manufacture.

Abstract: An electronic device comprising a housing assembly having at least one fiber composite layer molded into a portion of the housing assembly, the at least one fiber composite layer having a warp direction and configured to provide strength to the housing assembly corresponding to the warp direction.

Abstract: A laminate body containing one or more resin composition layers and two or more glass substrate layers, wherein at least one layer of those resin composition layers is between glass substrate layers, and is a fiber-containing resin composition layer of a composition that contains a thermosetting resin and a fibrous base material. A laminate plate containing one or more cured resin layers and two or more glass substrate layers, wherein at least one layer of those cured resin layers is between glass substrate layers, and is a fiber-containing cured resin layer of the fiber-containing resin composition. A printed wiring board having the above-mentioned laminate plate and a wiring provided on the surface thereof. A method for producing the laminate plate.

Abstract: A laminate body containing at least one resin composition layer and at least one glass substrate layer, wherein the resin composition layer comprises a resin composition containing a thermosetting resin and an inorganic filler and the glass substrate layer accounts for from 10 to 95% by volume of the entire laminate body. A laminate plate containing at least one cured resin layer and at least one glass substrate layer, wherein the cured resin layer comprises a cured product of a resin composition that contains a thermosetting resin and an inorganic filler and the glass substrate layer accounts for from 10 to 95% by volume of the entire laminate plate. A printed wiring board having the laminate plate and a wiring provided on the surface of the laminate plate. A method for producing the laminate plate comprising a cured resin layer forming step of forming a cured resin layer on the surface of a glass substrate.

Abstract: A laminate body containing at least two glass substrate layers and at least one inner resin composition layer existing between the adjacent two glass substrate layers, wherein the inner resin composition layer comprises an inner resin composition that contains a thermosetting resin and an inorganic filler. A laminate plate containing at least two glass substrate layers and at least one inner cured resin layer existing between the adjacent two glass substrate layers, wherein the inner cured resin layer comprises a cured product of an inner resin composition that contains a thermosetting resin and an inorganic filler. A printed wiring board having the laminate plate and a wiring provided on the surface of the laminate plate. A method for producing the laminate plate, which comprises a cured resin layer forming step of forming a cured resin layer on the surface of a glass substrate.

Abstract: A semiconductor device production method according to the present invention includes the steps of: forming a LOCOS oxide film in a surface of a silicon layer by a LOCOS method; forming an impurity region in the silicon layer by introducing an impurity into the silicon layer; and sequentially removing parts of the LOCOS oxide film and the silicon layer to form a trench for isolation of the impurity region after the formation of the LOCOS oxide film and the impurity region.

Abstract: Composite glass pane comprising at least a. one inner pane (1), b. one outer pane (2), and c. one intermediate layer (3) between the inner pane (1) and the outer pane (2), wherein the intermediate layer (3) contains at least one first thermoplastic film (3b) with a first luminescent pigment (3a), a second thermoplastic film (3d), and a barrier film (3c) between the thermoplastic films (3b, 3d) and wherein the luminescent pigment (3a) contains a hydroxyalkyl terephthalate having the formula: R1—COO—P(OH)x(0-4)-COO—R2, where R1, R2 is an alkyl or allyl residue having 1 to 10 C atoms, P is a phenyl ring, OH is hydroxyl groups bonded to the phenyl ring, and x is the number of hydroxyl groups bonded to the phenyl ring.

Abstract: In a titania-doped quartz glass member having a surface where EUV light of up to 70 nm wavelength is reflected, a refractive index distribution in the surface has only one extreme point within a central 80% region of the member. The titania-doped quartz glass member has a surface with a high level of precision and thus can be formed into an EUV lithography photomask substrate which is improved in flatness and thermal expansion properties.

Abstract: The present invention relates to a board complex having a polylactic acid (PLA) cover. The board complex includes: a cover member having at least one layer containing a PLA resin; and a board formed beneath the cover member, wherein the material for the board is selected from medium-density fiberboard (MDF), plywood, asbestos-free cellulose fiber reinforced cement board, magnesium board, glued laminated timber, high density fiberboard (HDF), particle board, ceramic tile, porcelain tile, ceramic board, and click-fastened board.

Abstract: The present invention relates to a laminated glass including a first glass substrate, a first adhesive layer, a heat reflective film, a second adhesive layer and a second glass substrate, laminated in this order, in which the heat reflective film includes a resin film having specific thermal shrinkages in a direction that a thermal shrinkage becomes maximum and in a direction orthogonal to the direction, and a heat reflective coating formed on the resin film; the first adhesive layer and the second adhesive layer include a polyvinyl butyral film having thermal shrinkages in a direction that a thermal shrinkage becomes maximum and in a direction orthogonal to the direction; and the direction that a thermal shrinkage becomes maximum, of the resin film and the direction that a thermal shrinkage becomes maximum, of the polyvinyl butyral film are orthogonal to each other.

Abstract: The subject invention relates to a facer which is comprised of a breathable film and a glass mat, wherein the breathable film and the glass mat are bonded together with an adhesive, wherein the breathable film is comprised of a breathable polymeric material selected from the group consisting of polyolefins, nylons, polyesters, and thermoplastic elastomers, and wherein the facer is water resistant. The facers of this invention can be employed in manufacturing construction board, such as polyisocyanurate boards, polystyrene boards, or gypsum boards.

Abstract: The present disclosure relates to a method of manufacturing of a glass coated flexible polymeric substrate. This invention also relates to a coated flexible polymeric substrate that is suitable for manufacturing flexible solar cells and electronic devices.

Abstract: The invention relates to a component comprising an insert part and plastics jacketing composed of at least two plastics components, where the insert part is enclosed by a first plastics component A and there is a second plastics component B enclosing the first plastics component A, where the first plastics component A is composed of: A1: from 5 to 80% by weight, based on the total weight of components A1 and A2, of at least one polyester based on aliphatic and aromatic dicarboxylic acids and on aliphatic dihydroxy compounds; A2: from 20 to 95% by weight, based on the total weight of components A1 and A2, of at least one homo- or copolyester selected from the group consisting of polylactide (PLA), polycaprolactone, polyhydroxyalkanoates, and polyester derived from aliphatic dicarboxylic acids and from aliphatic diols; A3: from 0.

Abstract: The invention relates to a plastic film, at least one side of which is provided with a surface structure comprising parallel rows of elevations (a). Said elevations (a) are interconnected by means of webs (b) that are at least 10 percent lower than the elevations (a). The inventive films can be used for producing laminated glass.

Abstract: A composite mould laminate, having a main structure layer made of oriented fiberglass, characterized in that the laminate further comprises a surface layer comprising random oriented carbon fiber.

Abstract: A laminated vehicle glazing, suitable for use with an optical sensor (for example a LIDAR type sensor), comprises first and second plies of glazing material joined together by a ply of interlayer material between them, and either: a) the first ply is a pane of body-tinted glass having a colorant portion consisting of 0.70 to 1.00% by weight total iron (calculated as Fe2O3), 0 to 1.0% titania and 0 to 2.0% ceria, such that the glazing has a transmittance of at least 30% in the wavelength range 400 to 2100 nm, or b) the first ply of glazing material is a pane of body-tinted glass having a colorant portion consisting of 0.30 to 0.80 by weight total iron (calculated as Fe2O3), 0 to 1.0% titania (calculated as TiO2) and 0 to 2.0% ceria (calculated as CeO2), and the ply of interlayer material is a solar (IR) absorbing material, such that the glazing has a transmittance of at least 30% in the wavelength range 750 to 1300 nm.

Abstract: An automotive glazing (10) comprising a single ply of annealed or semi-toughened glass (12) having a film of plastic material (16) bonded to a major surface of the glass ply by a contact adhesive (14).

Abstract: A laminated glass (10) has a structure in which seven sheet glasses (20) and six PVB resin layers (30) are laminated alternately. A laminated region from a transparent surface (10a) on one side to 4.0 mm comprises two 0.7 mm-thick glass layers formed of two sheet glasses (20), one 0.8 mm-thick glass layer formed of the portion (20c) of one 1.5 mm-thick sheet glass (20) positioned in the laminated region, and two adhesion layers (30) with thicknesses of 1.3 mm and 0.5 mm. Each of the adhesion layers is interposed between the glass layers and is adhered to the glass layers. The laminated region with a depth of 4.0 mm from a transparent surface (10b) on the other side also has the same laminated structure as that in the above laminated region.

Abstract: Disclosed is a polyester film having at least one surface coated with a poly(vinylidene chloride) layer and upon which an abrasion resistant hardcoat. Further disclosed is a laminated article comprising the hardcoated polyester film.