A fiber coupler (135) for coupling a plurality of cores (160) of a multi-core optical fiber (105) to an integrated photonic device comprises a grating array comprising a plurality of polarization splitting gratings (180) arranged in a manner that corresponds to the plurality of cores (160) in the multi-core optical fiber (105). The fiber coupler (135) also comprises first and second mode converters (235, 240) extending from first and second sides of each of the plurality of polarization splitting gratings (180) to receive first and second polarization modes of the optical signal scattered by the polarization splitting grating (180). A plurality of waveguides (145-a, 145-b) extends from ends of each of the mode converters (235, 240) to guide a single polarization mode of one of the optical signals.
A fixture assembly for slitting a workpiece into a serpentine body, a cutting system having a fixture assembly, and a method of forming a serpentine body. The fixture assembly includes a patterned support section that has a plurality of support slats interspaced with gaps. A holder plate has an opening configured to receive the workpiece and positioned atop the patterned support section such that intended cutting locations in the workpiece are positioned directly above the gaps in the patterned support section and the slats are positioned directly below uncut portions of the serpentine body after cutting the workpiece.
Glass and glass ceramic compositions having at least a lithium disilicate crystalline phase, a petalite crystalline phase, and a residual glass phase along with methods of making the glass and glass ceramic compositions are described. The compositions are compatible with conventional rolling and float processes, are transparent or translucent, and have high mechanical strength and fracture resistance. Additionally, processes of 3D forming glass ceramic preforms having the glass ceramic composition discussed to produce glass ceramic articles are described. Further, the compositions are able to be chemically tempered to even higher strength glass ceramics that are useful as large substrates in multiple applications.
C03C 10/00 - Verre dévitrifié ou vitrocéramiques, c. à d. verre ou céramiques ayant une phase cristalline dispersée dans la phase vitreuse et constituant au moins 50% en poids de la composition
C03B 11/12 - Refroidissement, chauffage ou isolation du poinçon, du moule ou de la presse de verre
C03B 32/02 - Cristallisation thermique, p.ex. pour la cristallisation de produits vitreux en articles vitrocéramiques
C03C 21/00 - Traitement du verre, autre que sous forme de fibres ou de filaments, par diffusion d'ions ou de métaux en surface
4.
THIN PIPETTES HAVING INCREASED MECHANICAL PERFORMANCE
A stretch blow molded pipette is provided that includes a tubular body arranged between a tip region and a mouthpiece region. The tip region has an average wall thickness that is greater than a wall thickness of the tubular body, and the body region has an average wall thickness of less than 0.032 inches (in) and a hoop strength of at least 15 pound-feet (lbf).
An assembly of two fiber optic ferrules allows for the mating of a CWDM fiber optic ferrule with a non-CWDM fiber optic ferrule. The CWDM fiber optic ferrule has optical fibers that carry optical beams with at least two different wavelengths, which the non-CWDM ferrule has optical fibers that carry only one wavelength. The CWDM fiber optic ferrule and the non-CWDM fiber optic ferrule have optical fibers that are inserted along parallel axes. The non-CWDM fiber optic ferrule has a lens pitch that matches the CWDM ferrule.
G02B 6/38 - Moyens de couplage mécaniques ayant des moyens d'assemblage fibre à fibre
G02B 6/293 - Moyens de couplage optique ayant des bus de données, c. à d. plusieurs guides d'ondes interconnectés et assurant un système bidirectionnel par nature en mélangeant et divisant les signaux avec des moyens de sélection de la longueur d'onde
G02B 6/42 - Couplage de guides de lumière avec des éléments opto-électroniques
G02B 27/09 - Mise en forme du faisceau, p.ex. changement de la section transversale, non prévue ailleurs
Foldable apparatus comprise a foldable substrate comprising a substrate thickness. The second major surface of the foldable substrate faces an end portion of a first inner surface area of a first housing member extending along a first plane. The second surface faces an end portion of a second inner surface area of a second housing member extending along a second plane. A support is attached to at least the second housing member. The support contacts the second major surface when an angle between the first plane and the second plane ranges from about 80° to about 135°. The support is spaced from the second major surface when an angle between the first plane and the second plane ranges from about 0° to about 30°. In some embodiments, the foldable substrate comprises a neutral stress configuration at a parallel plate distance ranging from about 20 millimeters to about 200 millimeters.
A glass transport system configured to mitigate or stop damaging glass leaks by incorporating silica-containing structural components or introducing silica-containing materials to the advancing glass leak flow to cause the molten glass to interact with silica in the silica-containing material and increase the viscosity of the molten glass sufficiently to slowdown or stop the flow of the glass leak.
Apparatuses and methods are described for controlling the width and thickness of glass during glass sheet production. The apparatuses and methods employ a gas cooling mechanism that is designed to extract heat from molten glass during the drawdown process to reduce width attenuation and generate more uniform glass. In some examples, a nozzle of a glass forming apparatus includes a first nozzle portion with a first glass forming surface, and a second nozzle portion opposite the first nozzle portion, where the second nozzle portion includes a second glass forming surface opposite the first glass forming surface. The nozzle also includes a first cavity within the first nozzle portion, and a second cavity within the second nozzle portion. Gas, such as air, is delivered to each of the first cavity and the second cavity to cool molten glass as it is drawn between the first and second glass forming surfaces.
A colored glass article includes greater than or equal to 50 mol % and less than or equal to 80 mol % SiO2; greater than or equal to 7 mol % and less than or equal to 25 mol % Al2O3; greater than or equal to 1 mol % and less than or equal to 15 mol % B2O3; greater than or equal to 5 mol % and less than or equal to 20 mol % Li2O; greater than or equal to 0.5 mol % and less than or equal to 15 mol % Na2O; greater than 0 mol % and less than or equal to 1 mol % K2O; and greater than or equal to 1×10−6 mol % and less than or equal to 1 mol % Au. R2O—Al2O3 is greater than or equal to −5 mol % and less than or equal to 7 mol %, R2O being the sum of Li2O, Na2O, and K2O.
C03C 3/093 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du bore contenant de l'aluminium contenant du zinc ou du zirconium
C03C 4/02 - Compositions pour verres ayant des propriétés particulières pour verre coloré
C03C 21/00 - Traitement du verre, autre que sous forme de fibres ou de filaments, par diffusion d'ions ou de métaux en surface
12.
HARDENED OPTICAL WINDOWS WITH ANTI-REFLECTIVE FILMS HAVING LOW VISIBLE REFLECTANCE AND TRANSMISSION FOR INFRARED SENSING SYSTEMS
Described herein is a window(24) comprising first and second layered films(36,38). The window(24) exhibits a maximum hardness, measured at the first layered film(36) and by the Berkovich Indenter Hardness Test, of at least 8 GPa to facilitate durability and scratch resistance. The quantity, the thicknesses, number, and materials of alternating layers of the first and second layered films(36,38) are configured so that the window(24) has a relatively high transmittance (e.g., greater than 90%) and low reflectance (e.g., less than 5%) over a 50 nm wavelength range of interest centered at a wavelength between 850 nm and 950 nm, while still exhibiting a dark, opaque appearance when the window(24) is viewed from the first layered film(36).
A conduit configured to convey molten glass from one molten glass processing vessel to another molten glass processing vessel, the conduit comprising a cooling tube extending through the conduit and configured to receive a flow of cooling fluid therethrough, thereby cooling molten glass flowing through the conduit.
A method of processing a transparent workpiece comprises directing a defect-forming laser beam to an impingement surface of a transparent workpiece, the defect-forming laser beam having a numerical aperture from 0.10 to 0.25, the transparent workpiece having a textured surface, the textured surface having an Ra value of greater than or equal to 0.5 µm.
C03B 33/02 - Découpe ou fendage des feuilles de verre; Dispositifs ou machines à cet effet
B23K 26/359 - Travail par rayon laser, p.ex. soudage, découpage ou perçage pour le traitement de surface en formant une ligne ou un motif linéaire, p.ex. une ligne en pointillés d'amorce de rupture
B23K 26/53 - Travail par transmission du faisceau laser à travers ou dans la pièce à travailler pour modifier ou reformer le matériau dans la pièce à travailler, p.ex. pour faire des fissures d'amorce de rupture
C03B 33/04 - Découpe ou fendage courbe, spécialement pour la fabrication des verres de lunettes
15.
LOW NUMERICAL APERTURE OPTICS TO ENABLE LASER CUTTING OF TEXTURED SUBSTRATES
A method of processing a transparent workpiece comprises directing a defect-forming laser beam to an impingement surface of a transparent workpiece, the defect-forming laser beam having a numerical aperture from 0.10 to 0.25, the transparent workpiece having a textured surface, the textured surface having an Ra value of greater than or equal to 0.5 μm.
B23K 26/53 - Travail par transmission du faisceau laser à travers ou dans la pièce à travailler pour modifier ou reformer le matériau dans la pièce à travailler, p.ex. pour faire des fissures d'amorce de rupture
B23K 26/40 - Enlèvement de matière en tenant compte des propriétés du matériau à enlever
16.
CORDIERITE-INDIALITE-PSEUDOBROOKITE STRUCTURED CERAMIC BODIES, BATCH COMPOSITION MIXTURES, AND METHODS OF MANUFACTURING CERAMIC BODIES THEREFROM
A ceramic body exhibiting % P≥50%, df≤0.36, and a combined weight percentage of crystalline phases containing cordierite and indialite of at least 85 wt %, and up to 10 wt % of a crystalline pseudobrookite structured phase, such as armalcolite. The ceramic body contains, as expressed on an oxide basis, either: 1% wt % to 11% wt % titania and 89% wt % to 99% wt % MgO, Al2O3, and SiO2 that have relative weight ratios of MgO:Al2O3:SiO2 within the field defined by 15.6:34.0:50.4, 12.6:34.0:53.4, 13.9:30.7:55.4, and 16.9:30.7:52.4, or 2.5% to 11% titania and 89% wt % to 97.5% wt % MgO, Al2O3, and SiO2 that have relative weight ratios of MgO:Al2O3:SiO2 within the field defined by 15.6:34.0:50.4, 12.6:34.0:53.4, 12.0:35.7:52.3, and 15.0:35.7:49.3. Batch composition mixtures and methods of manufacturing ceramic bodies using the batch compositions are provided, as are other aspects.
Multiports comprising a connection port insert having at least one optical port along with methods for making are disclosed. One embodiment is directed to a multiport for providing an optical connection comprising a shell and a connection port insert. The shell comprises a first end having a first opening leading to a cavity. The connection port insert comprises a body having a front face and at least one connection port comprising an optical connector opening extending from the front face into the connection port insert with a connection port passageway extending through part of the connection port insert to a rear portion, where the connection port insert is sized so that at least a portion of the connection port insert fits into the first opening and the cavity of the shell.
A fiber optic cable includes a cable core of core elements and a protective sheath surrounding the core elements, an armor surrounding the cable core, the armor comprising a single overlap portion when the fiber optic cable is viewed in cross-section, and a jacket surrounding the armor, the jacket having at least two longitudinal discontinuities extruded therein. A method of accessing the cable core without the use of ripcords includes removing a portion of the armor in an access section by pulling the armor away from the cable core so that an overlap portion separates around the cable core as it is being pulled past the cable core. A protective sheath protects the core elements as the armor is being pulled around the cable core.
A dust plug for use in a pre-populated adapters has a main body having a top wall, a bottom wall, and two opposing side walls extending between the top wall and bottom wall. The dust plug also includes at least one pair of latches in a front portion of the main body and each of the at least one pair of latches may have an increased thickness at a forward end thereof. The area of increased thickness is sized to engage a receptacle in an inner surface of the housing when the dust plug is attached to the housing. Other versions contemplate not having the increased thickness. The dust plug preferably includes a grip at the back end.
An apparatus for cutting a composite substrate includes a support configured to support a composite substrate including a first layer and a second layer that includes a material different from the first layer, a water jet nozzle configured to eject high-pressure water to cut the composite substrate and move along an upper surface of the support, a jet pressure controller configured to control a pressure of the high-pressure water ejected from the water jet nozzle, and a motion controller configured to control a movement of the water jet nozzle.
B24C 1/04 - Méthodes d'utilisation de jet abrasif en vue d'effectuer un travail déterminé; Utilisation d'équipements auxiliaires liés à ces méthodes pour travailler uniquement certaines parties déterminées, p.ex. pour graver la pierre ou le verre
21.
CELL CULTURE APPARATUSES WITH MANIFOLDS INCLUDING COLUMN STRUCTURES
A cell culture apparatus includes a cell culture module including multiple cell culture chambers. A manifold connects the multiple cell culture chambers together along a side of the cell culture module. The manifold includes a side wall base structure connected to the side of the cell culture module and a column structure that is formed as a monolithic part of the side wall base structure. The column structure defines a fluid flow pathway through the manifold and to inlets to the cell culture chambers to allow filling and emptying of the cell culture chambers of liquid medium.
A new fiber optic connector provides a smaller form factor by including two ferrule assemblies in a housing. The housing accepts a push-pull mechanism that allows for insertion and removal from a carrier as well as an adapter. The push-pull mechanism may also include a flexure member to return the push-pull mechanism. Polarity of the fiber optic connector may also be selected by use of the push-pull mechanism.
A fiber optic connector has at least two optical fibers therein have end faces that are positioned such that they are directed in different directions. The end faces can be oriented relative to a key that is provided on a fiber optic connector housing that has a central opening in the main body of the fiber optic connector.
According to embodiments described herein, a honeycomb filter may include a porous honeycomb body including activated carbon, wherein the activated carbon may be dispersed throughout porous channel walls of the porous honeycomb body and the activated carbon may include from 1 wt.% to 50 wt.% nitrogen. A method of making the honeycomb filter may include forming a shapable honeycomb precursor composition including a cross-linked resin, shaping the honeycomb precursor composition to form a honeycomb green body, heat treating the honeycomb green body, and activating the carbonized honeycomb green body. Another method of making the honeycomb filter may include forming a honeycomb precursor composition including a cross-linked resin, heat treating the honeycomb precursor composition, activating the carbonized honeycomb precursor composition, and shaping the activated honeycomb precursor composition. The cross-linked resin may include from 0.5 wt.% to 4 wt.% nitrogen.
B01D 39/20 - Autres substances filtrantes autoportantes en substance inorganique, p.ex. papier d'amiante ou substance filtrante métallique faite de fils métalliques non-tissés
A nip roller system includes a nip roller configured to contact a glass ribbon and apply an adjustable downward force to the glass ribbon as the glass ribbon travels between the nip roller and an opposing roller of a glass ribbon conveying system, wherein a 6 o'clock position of the nip roller is aligned with a 12 o'clock position of the opposing roller.
C03B 33/03 - Tables de coupe de verre; Appareils pour transporter ou manipuler des feuilles de verre pendant les opérations de coupe ou de fendage
C03B 35/00 - Transport des articles de verre pendant leur fabrication
B28D 1/22 - Travail de la pierre ou des matériaux analogues p.ex. briques, béton, non prévu ailleurs; Machines, dispositifs, outils à cet effet par découpage, p.ex. exécution d'entailles
B65G 49/06 - Systèmes transporteurs caractérisés par leur utilisation à des fins particulières, non prévus ailleurs pour des matériaux ou objets fragiles ou dommageables pour des feuilles fragiles, p.ex. en verre
26.
PARTICULATE FILTER ARTICLES WITH FUMED SILICA DEPOSITS AND METHODS THEREOF
Filtration articles, and methods for making filtration articles, include particles of inorganic material, which include fumed silica particles, deposited onto porous cell walls inside a honeycomb structure of a filter body for improved filtration performance.
B01D 46/24 - Séparateurs de particules utilisant des corps filtrants creux et rigides, p.ex. appareils de précipitation de poussières
F01N 3/022 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour refroidir ou pour enlever les constituants solides des gaz d'échappement au moyen de filtres caractérisés par une structure filtrante spécialement adaptée, p.ex. en nid d'abeilles, à mailles ou fibreuse
B01D 39/20 - Autres substances filtrantes autoportantes en substance inorganique, p.ex. papier d'amiante ou substance filtrante métallique faite de fils métalliques non-tissés
27.
METHODS OF MAKING HONEYCOMB BODIES WITH TRACER PARTICLES
B01D 46/24 - Séparateurs de particules utilisant des corps filtrants creux et rigides, p.ex. appareils de précipitation de poussières
B01D 39/20 - Autres substances filtrantes autoportantes en substance inorganique, p.ex. papier d'amiante ou substance filtrante métallique faite de fils métalliques non-tissés
F01N 3/022 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour refroidir ou pour enlever les constituants solides des gaz d'échappement au moyen de filtres caractérisés par une structure filtrante spécialement adaptée, p.ex. en nid d'abeilles, à mailles ou fibreuse
28.
METHODS OF SURFACE TREATING HONEYCOMB BODIES WITH SACRIFICIAL PARTICLES
Methods for manufacturing a honeycomb structured article comprising delivering first particles from a first suspension of first particles axially into the channels by flowing the first particles into the honeycomb structure so at least some of the first particles are disposed in, over, and/or around the surface openings, and terminating the delivering of the first particles into the channels after a selected deposited amount of first particles has been deposited within the honeycomb structure, the selected deposited amount of first particles per volume of the honeycomb structure being greater than 0.01 grams/liter and less than 5.0 grams/liter, wherein the first particles are comprised of sacrificial particles comprised of an organic material comprised of macromolecules, one or more polymers, or combinations thereof. Second particles are then deposited over the first particles.
B01D 46/24 - Séparateurs de particules utilisant des corps filtrants creux et rigides, p.ex. appareils de précipitation de poussières
F01N 3/022 - Silencieux ou dispositifs d'échappement comportant des moyens pour purifier, rendre inoffensifs ou traiter les gaz d'échappement pour refroidir ou pour enlever les constituants solides des gaz d'échappement au moyen de filtres caractérisés par une structure filtrante spécialement adaptée, p.ex. en nid d'abeilles, à mailles ou fibreuse
B01D 39/20 - Autres substances filtrantes autoportantes en substance inorganique, p.ex. papier d'amiante ou substance filtrante métallique faite de fils métalliques non-tissés
29.
DEADFRONT ARTICLES WITH MULTI-LAYER OPTICAL STRUCTURES AND ASSOCIATED METHODS
Described herein are deadfront assemblies that are configured to exhibit variable transmission and reflection performance attributes. The deadfront assemblies described herein comprise a first ink layer, an intermediate layer, and a second ink layer. The intermediate layer is disposed between the first and second ink layers and is configured to reflect light that is transmitted through the first ink layer back through the first ink layer so that one or more colors of the ink in the first ink layer is visible in the reflected light. The second ink layer is configured to counteract deviations in optical transmission caused by the first ink layer so that light transmitted through the deadfront assembly is not perceptively altered in color. Overlapping regions of the first and second ink layers comprise inverse appearance attributes so that light output from a light source and transmitted through the deadfront assembly has a desired appearance.
Provided is a light extraction substrate disposed on a front portion of an organic light-emitting diode (OLED) to extract light from the OLED. The light extraction substrate includes abase substrate and a light extraction layer disposed on the base substrate. The light extraction layer includes a matrix layer and BaTiO3 light-scattering particles dispersed in the matrix layer. The matrix layer contains a siloxane-based organic-inorganic hybrid material. An organic light-emitting device includes the light extraction substrate and an OLED disposed on the light extraction layer of the light extraction substrate.
Methods of manufacturing a glass-based article includes exposing a glass-based substrate having a lithium aluminosilicate composition to an ion exchange treatment to form the glass-based article. The ion exchange treatment including a molten salt bath having a concentration of a sodium salt in a range from 8 mol % to 100 mol %. The glass-based article includes sodium having a non-zero varying concentration extending from a surface of the glass-based article to a depth of the glass-based article The glass-based article has compressive stress layer extending from the surface to a spike depth of layer from 4 micrometers to 8 micrometers. The glass-based article includes a molar ratio of potassium oxide (K2O) to sodium oxide (Na2O) averaged over a distance from the surface to a depth of 0.4 micrometers that is greater than or equal to 0 and less than or equal to 1.8.
C03C 21/00 - Traitement du verre, autre que sous forme de fibres ou de filaments, par diffusion d'ions ou de métaux en surface
C03C 3/093 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du bore contenant de l'aluminium contenant du zinc ou du zirconium
C03C 3/12 - Compositions pour la fabrication du verre contenant un oxyde mais pas de silice
C03C 4/18 - Compositions pour verres ayant des propriétés particulières pour verre sensible aux ions
H05K 5/00 - Enveloppes, coffrets ou tiroirs pour appareils électriques
An alignment apparatus for aligning components of an optical assembly include a chuck configured to support the optical assembly thereon, and an adjustable flexure assembly disposed around the chuck. The adjustable flexure assembly includes a plurality of flexures. The plurality of flexures are positioned relative to the chuck such that each of the plurality of flexures contact the optical assembly when the optical assembly is positioned on the chuck. Adjustment of a position of one or more flexures of the plurality of flexures adjusts an alignment of an optical axis of an optical component of the optical assembly when the optical assembly is positioned on the chuck, wherein the alignment apparatus is configured to align optical axes of the optical component to an angle of deviation of less than about 1,000 μrad and provide an extinction ratio within the optical assembly of greater than or equal to 1000:1
A cell culture vessel includes a vessel body including a first end wall, a second end wall opposite the first end wall and a pair of side walls that extend between the first end wall and the second end wall. The first end wall, second end wall and pair of side walls define a perimeter of a cell culture chamber. An inner fill wall extends inward from the first end wall and the pair of sidewalls into the cell culture chamber. The inner fill wall has a canted inner surface having an outer edge at the first end wall that is angularly offset from an inner terminal edge of the canted inner surface. A diverter extends along the canted inner surface at least partially transverse to a fill direction between the pair of sidewalls. The diverter provides passageways between the diverter and the pair of side walls through which liquid flows by the diverter during a filling operation.
C12M 1/24 - Appareillage pour l'enzymologie ou la microbiologie en forme de tube ou de bouteille
C12M 1/00 - Appareillage pour l'enzymologie ou la microbiologie
C12N 5/00 - Cellules non différenciées humaines, animales ou végétales, p.ex. lignées cellulaires; Tissus; Leur culture ou conservation; Milieux de culture à cet effet
34.
ROLL-TO-SHEET GLASS ASSEMBLY APPARATUSES AND RELATED METHODS
An apparatus includes a spool unwinder configured to accept a spool of glass ribbon and an interleaf rewinder configured to collect interleaf. The apparatus also includes a separation assembly configured to separate a glass sheet from the glass ribbon and a controller coupled to the spool unwinder, the interleaf rewinder, and the separation assembly. The controller is configured to control movement of the glass ribbon from the spool unwinder to the separation assembly.
B65H 41/00 - Machines pour séparer des bandes superposées
B65H 18/10 - Mécanismes d'enroulage des bandes dans lesquels l'énergie est appliquée à la broche de la bobine
B65H 23/02 - Positionnement, tension, suppression des à-coups ou guidage des bandes transversal
B65H 23/032 - Commande du positionnement transversal de la bande
B65H 23/038 - Commande du positionnement transversal de la bande par des rouleaux
B65H 23/26 - Positionnement, tension, suppression des à-coups ou guidage des bandes longitudinal par barres ou rouleaux transversaux fixes ou réglables
C03B 33/03 - Tables de coupe de verre; Appareils pour transporter ou manipuler des feuilles de verre pendant les opérations de coupe ou de fendage
35.
Ultra-small Form Factor Fiber Optic Connector and Adapter with Stubbing Prevention Features
A modified housing and adapter prevent unwanted contact during the mating of fiber-optic connectors by using positive features and negative features in the housing, while the modified adapter presents negative features and positive features in mating of the two structures.
An interface provides protection and support for transitioning a jacketed fiber optic cable. The interface has a crimp body, a transition portion and a front end to receive an adapter. The interface preferably has a main body with two pieces that are identical. The two pieces have tabs and recesses corresponding to the tabs for alignment and structure. The main body also may have an opening for an adapter latch. A crimp band fits over the crimp body to secure the jacketed fiber optic cable to the interface.
A method for making an antimicrobial composite film can include forming a first coating layer by applying a first coating material on a substrate and forming a second coating layer by applying a second coating material on the first coating layer. The first coating material can comprise a first resin. The second coating material can comprise an antimicrobial material in a second resin or a dispersion. The first coating material can have a lower concentration of the antimicrobial material than the second coating material. The first and second coating layers can cooperatively define a composite film. The antimicrobial material can be asymmetrically dispersed in the composite film such that the antimicrobial material is concentrated closer to the outer surface of the composite film than to the inner surface of the composite film.
In various embodiments of the present disclosure, a fenestration apparatus is provided, including: a glazing comprising a LC panel having: a first glass layer; a second glass layer, and a liquid crystal cell therebetween; a frame, configured perimetrically around a corresponding perimetrical edge of the LC panel; and an attachment member configured to the frame, wherein the attachment member is configured to be removably fixable to an existing window, wherein the attachment member is configured to define a gap between the frame, the at least one LC panel, and the existing window.
E06B 9/24 - Ecrans ou autres dispositifs protecteurs contre la lumière, notamment contre la lumière solaire; Ecrans similaires pour protection de l'intimité ou pour des raisons esthétiques
C03C 17/00 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement
C03C 17/34 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement avec au moins deux revêtements ayant des compositions différentes
E06B 3/28 - Châssis de battants non caractérisés par le genre du mouvement avec des vitres ou plaques similaires supplémentaires amovibles, encadrés ou non
39.
BACKLIGHTS INCLUDING PATTERNED DIFFUSERS AND WAVELENGTH SELECTIVE REFLECTORS
A backlight includes a substrate, a plurality of light sources, a reflective layer, a first diffuser plate, a second diffuser plate, and a color conversion layer. The plurality of light sources are proximate the substrate. The reflective layer is proximate the substrate. The first diffuser plate is over the plurality of light sources. The color conversion layer is between the first diffuser plate and the second diffuser plate.
According to embodiments, a coated pharmaceutical container may include a pharmaceutical container comprising an interior surface and an exterior surface, wherein the pharmaceutical container may include a glass composition that has Class HGA1 hydrolytic resistance when tested according to the ISO 720 testing standard. The coated pharmaceutical container may further include a coating bonded to at least a portion of the exterior surface but not on any portion of the interior surface. The coating may have a coefficient of friction less than or equal to 0.7, and the coated pharmaceutical container may be thermally stable after heating at a temperature of at least 260° C. for a time period of 30 minutes.
C03C 17/00 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement
C03C 17/30 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement par des matières organiques avec des composés contenant du silicium
C03C 17/32 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement par des matières organiques avec des résines synthétiques ou naturelles
C03C 17/42 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement avec au moins deux revêtements ayant des compositions différentes un revêtement au moins étant une substance organique et un revêtement au moins étant un non-métal
C03C 21/00 - Traitement du verre, autre que sous forme de fibres ou de filaments, par diffusion d'ions ou de métaux en surface
A bioreactor includes a growth substrate having a first end, a second end, and walls defining passages within the growth substrate. The passages are aligned with one another and open to the first and/or second ends of the growth substate. The bioreactor also may include fluid carrying nutrients for cell growth as well as cells growing on the walls of the growth substrate. The fluid flows through the passages of the growth substrate to nourish the cells.
An adapter receives a multi-fiber ferrule in opposing ends, the multi-fiber ferrules have different formats, end-face configurations and areas. The ferrules may be disposed in a fiber optic connector or a sleeve. In at least one embodiment, a MT ferrule is optically mated to a TMT ferrule, the MT ferrule being disposed in an MPO connector while the TMT ferrule is disposed in a VSFF connector.
Batteries include a cathode, a solid-state electrolyte, and an anode. In aspects, the anode comprises an alloy including from about 50 atom % to about 90 atom % lithium, from about 5 atom % to about 50 atom % of a first component, and from about 0.1 atom % to about 10 atom % of a second component. In aspects, the anode includes from about 20 atom % to about 99 atom % of a first component and from about 1 atom % to about 20 atom % of a second component. The first component is selected from a group consisting of magnesium, silver, and combinations thereof. The second component is selected from a group consisting of calcium, aluminum, gallium, boron, carbon, silicon, tin, zinc, indium, antimony, silver, and combinations thereof. An amount of the first component is greater than an amount of the second component. The solid-state electrolyte is positioned between the cathode and the anode.
H01M 4/134 - PROCÉDÉS OU MOYENS POUR LA CONVERSION DIRECTE DE L'ÉNERGIE CHIMIQUE EN ÉNERGIE ÉLECTRIQUE, p.ex. BATTERIES Électrodes Électrodes composées d'un ou comprenant un matériau actif Électrodes pour accumulateurs à électrolyte non aqueux, p.ex. pour accumulateurs au lithium; Leurs procédés de fabrication Électrodes à base de métaux, de Si ou d'alliages
H01M 4/1395 - Procédés de fabrication d’électrodes à base de métaux, de Si ou d'alliages
H01M 4/38 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'éléments simples ou d'alliages
Batteries include a cathode, an interlayer disposed on the cathode, a solid-state electrolyte disposed on the interlayer, and a lithium anode disposed on the solid-state electrolyte. The interlayer includes a deep-eutectic-solvent-based electrolyte including a lithium salt and a sulfone compound. Methods of forming a battery comprising disposing a deep-eutectic-solvent-based electrolyte comprising a lithium salt and a sulfone compound on a first major surface of a cathode. Methods further comprising disposing a solid-state electrolyte over the first major surface of the cathode. The deep-eutectic-solvent-based electrolyte is positioned between the cathode and the solid-state electrolyte.
H01M 10/0569 - Matériaux liquides caracterisés par les solvants
H01M 4/38 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'éléments simples ou d'alliages
H01M 4/505 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de manganèse d'oxydes ou d'hydroxydes mixtes contenant du manganèse pour insérer ou intercaler des métaux légers, p.ex. LiMn2O4 ou LiMn2OxFy
H01M 4/525 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de nickel, de cobalt ou de fer d'oxydes ou d'hydroxydes mixtes contenant du fer, du cobalt ou du nickel pour insérer ou intercaler des métaux légers, p.ex. LiNiO2, LiCoO2 ou LiCoOxFy
H01M 10/0568 - Matériaux liquides caracterisés par les solutés
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c. à d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
45.
INTERLAYERS FOR CATHODE/SOLID ELECTROLYTE INTERFACES IN SOLID-STATE BATTERIES AND METHODS OF MAKING THE SAME
SHANGHAI INSTITUTE OF CERAMICS, CHINESE ACADEMY OF SCIENCES (Chine)
Inventeur(s)
Badding, Michael Edward
Cai, Mingli
Jin, Jun
Song, Zhen
Wen, Zhaoyin
Xiu, Tongping
Yao, Liu
Abrégé
Batteries include a current collector, a cathode, an interlayer disposed on the cathode, a solid-state electrolyte disposed on the interlayer, and a lithium anode disposed on the solid-state electrolyte. In aspects, the interlayer includes a lithium salt and a sulfone compound within a polymeric matrix. In aspects, the interlayer includes a lithium salt and a sulfone compound. In aspects, methods of forming a battery comprise disposing a precursor solution comprising a lithium salt, a sulfone compound, and a monomer on a first major surface of a cathode. Methods can further include curing the precursor solution to form an interlayer including the lithium salt and the sulfone compound within a polymeric matrix. In aspects, methods can include disposing a lithium salt and a sulfone compound on a first major surface of a cathode. Methods further include disposing a solid-state electrolyte over the first major surface of the cathode.
H01M 4/36 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs
H01M 4/131 - PROCÉDÉS OU MOYENS POUR LA CONVERSION DIRECTE DE L'ÉNERGIE CHIMIQUE EN ÉNERGIE ÉLECTRIQUE, p.ex. BATTERIES Électrodes Électrodes composées d'un ou comprenant un matériau actif Électrodes pour accumulateurs à électrolyte non aqueux, p.ex. pour accumulateurs au lithium; Leurs procédés de fabrication Électrodes à base d'oxydes ou d'hydroxydes mixtes, ou de mélanges d'oxydes ou d'hydroxydes, p.ex. LiCoOx
H01M 4/38 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'éléments simples ou d'alliages
H01M 4/505 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de manganèse d'oxydes ou d'hydroxydes mixtes contenant du manganèse pour insérer ou intercaler des métaux légers, p.ex. LiMn2O4 ou LiMn2OxFy
H01M 4/525 - Emploi de substances spécifiées comme matériaux actifs, masses actives, liquides actifs d'oxydes ou d'hydroxydes inorganiques de nickel, de cobalt ou de fer d'oxydes ou d'hydroxydes mixtes contenant du fer, du cobalt ou du nickel pour insérer ou intercaler des métaux légers, p.ex. LiNiO2, LiCoO2 ou LiCoOxFy
H01M 10/0568 - Matériaux liquides caracterisés par les solutés
H01M 10/0569 - Matériaux liquides caracterisés par les solvants
H01M 10/0585 - Structure ou fabrication d'accumulateurs ayant uniquement des éléments de structure plats, c. à d. des électrodes positives plates, des électrodes négatives plates et des séparateurs plats
H01M 10/42 - Procédés ou dispositions pour assurer le fonctionnement ou l'entretien des éléments secondaires ou des demi-éléments secondaires
46.
COLORED GLASSES WITH IMPROVED TEMPERING CAPABILITIES
The disclosure relates to highly temperable colored glass compositions. The colored glass compositions have high coefficients of thermal expansion and high Young's moduli that advantageously absorb in the ultraviolet and/or blue wavelength ranges. Methods of making such glasses are also provided.
C03C 4/02 - Compositions pour verres ayant des propriétés particulières pour verre coloré
C03C 3/087 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant de l'oxyde d'aluminium ou un composé du fer contenant un oxyde d'un métal divalent contenant de l'oxyde de calcium, p.ex. verre à vitre ordinaire ou verre pour récipients creux
C03C 3/091 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du bore contenant de l'aluminium
C03C 3/095 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant des terres rares
Public University Corporation Yokohama City University (Japon)
Inventeur(s)
Ejiri, Yoko
Ayano, Satoru
Fukuhara, Naoto
Taniguchi, Hideki
Takebe, Takanori
Abrégé
Provided is a culture chamber capable of preparing spheroids with a uniform size with high efficiency and having a micro-space structure which is designed to facilitate replacement of a medium and harvesting of cells. The culture chamber includes a plurality of recesses (10) each formed of a bottom portion (11) and an opening portion (12). The bottom portion (11) has one of a hemispherical shape and a truncated cone shape and the opening portion (12) is defined by a wall that surrounds an area from a boundary between the opening portion (12) and the bottom portion (11) to an end of each of the recesses (10), the wall having a taper angle in a range from 1 degree to 20 degrees. An equivalent diameter of the boundary is in a range from 50 μm to 2 mm and a depth from a bottom of the bottom portion (11) to the end of each of the recesses is in a range from 0.6 or more times to 3 or less times the equivalent diameter, and the wall defining the opening portion (12) forms a surface continuous to the bottom portion (11) and an inclination of the continuous surface changes at the boundary.
A method of disinfecting using a light diffusing fiber includes optically coupling a light source to a light diffusing optical fiber having a core, a cladding surrounding the core, an outer surface, and a plurality of scattering structures positioned within the core, the cladding, or both the core and the cladding. The method further includes positioning the light diffusing optical fiber in optical engagement with a pathogen sample and directing light output by the light source into the light diffusing optical fiber for a first time interval. The scattering structures scatter light propagating along the light diffusing optical fiber toward the outer surface and a portion of the light diffuses through the outer surface thereby irradiating the pathogen sample with light having an average power density of about 5 mW/cm2 to about 30 mW/cm2 at a wavelength from about 380 nm to about 495 nm for an exposure time from about 2 hours to about 24 hours.
A61L 2/08 - Procédés ou appareils de désinfection ou de stérilisation de matériaux ou d'objets autres que les denrées alimentaires ou les lentilles de contact; Accessoires à cet effet utilisant des phénomènes physiques des radiations
A cell culture vessel has a wall and cell culture surface having a plurality of microcavities for culturing cells in three-dimensional conformation, referred to as “spheroids”. The inner surface of the wall and the cell culture surface define a cell culture chamber of the vessel. The wall is attached to the cell culture surface in a way that does not provide flat surfaces on or around the cell culture surface so that the vessel provides an environment suitable for the production of a homogeneous population of three-dimensional cell clusters, or spheroids.
A fiber optic connector has a fiber optic connector shutter that rotates about a first axis and an adapter for the fiber optic connector also has an adapter shutter that rotates about a second axis in the adapter. When the fiber optic connector and the adapter are mated to one another, the axes for the fiber optic connector shutter and the adapter shutter are aligned and the fiber optic connector shutter and the adapter shutter rotate about a single axis. The fiber optic connector shutter and the adapter shutter include structure to maintain engagement during the mating and un-mating of the fiber optic connector and the adapter.
A laminate can comprise an oxide disposed over a first major surface of a substrate. The oxide layer can comprise a thickness of about 40 nanometers or less. The oxide layer can comprise oxygen and a first element. The first element can comprise at least one of titanium, tantalum, silicon, or aluminum. The oxide layer can comprise an atomic ratio of oxygen to the another element of about 1.5 or less. The laminate can comprise a peel strength between the substrate and the oxide layer of about 1.3 Newtons per centimeter or more. Methods of making a laminate can comprise providing a substrate comprising a first major surface and depositing an oxide layer over the first major surface of the substrate by sputtering from an elemental target comprising an another element in an oxygen environment.
C23C 28/00 - Revêtement pour obtenir au moins deux couches superposées, soit par des procédés non prévus dans un seul des groupes principaux , soit par des combinaisons de procédés prévus dans les sous-classes et
52.
METHODS FOR MAKING ELECTRODES AND PROVIDING ELECTRICAL CONNECTIONS IN SENSORS
A method of forming a sensor, such as a glass electrochemical sensor, is described. In some examples, the method may include forming a plurality of apertures in a glass substrate; forming a sensor body comprising the glass substrate and at least one glass sensor component, wherein one or more apertures of the glass substrate are aligned with the at least one glass sensor component to form an outer contact aperture; filling the outer contact aperture in the sensor body with a first conducting material to form an outer contact through glass via (TGV); and forming an electrode on the glass substrate adjacent at least one of the apertures of the plurality of apertures.
G01N 27/28 - Composants de cellules électrolytiques
C03C 17/06 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement par des métaux
C03C 17/10 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement par des métaux par dépôt à partir d'une phase liquide
Glass articles including a glass laminate substrate having a plurality of flow channels formed therein are provided. The glass laminate substrate includes a first glass layer and a second glass layer fused together. In various embodiments, at least 80% of a total area of a floor of each of the flow channels has a local surface flatness of less than 100 nm/mm2, measured along a length and width of the floor of each of the plurality of flow channels Such glass articles are manufactured using a method including contacting a first portion of the first glass layer with a first etchant for a first etch time to at least partially form flow channels in the glass substrate and contacting the flow channels with a second etchant for a second etch time to flatten a floor of each of the flow channels.
Fiber optic assemblies are used to link transceivers carrying a signal from the transmitter portion of one transceiver to the receiver portion of another transceiver. The fiber optic assemblies have multi-fiber fiber optic connectors with a multi-fiber ferrule with two rows of optical fibers and with a gender of either male or female. When the fiber optic connectors have fiber optic connectors with the same gender, the plurality of optical fibers are inverted and when the fiber optic assemblies have fiber optic connectors with an opposite gender, the plurality of optical fibers are not inverted but switch rows. The inversion may also occur when the fiber optic connectors have the opposite gender in an alternative embodiment.
An optical display device including a base plate and a plurality of tiled LED boards disposed thereon. One or more of the base plate and/or the LED boards may be coated with one or more coating materials to adjust a relative reflectivity between the base plate and the LED boards to minimize the intensity of light reflected at the gap between the tiled LED boards due to reflectance at the base plate.
H01L 25/075 - Ensembles consistant en une pluralité de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide les dispositifs étant tous d'un type prévu dans le même sous-groupe des groupes , ou dans une seule sous-classe de , , p.ex. ensembles de diodes redresseuses les dispositifs n'ayant pas de conteneurs séparés les dispositifs étant d'un type prévu dans le groupe
H01L 33/60 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails caractérisés par les éléments du boîtier des corps semi-conducteurs Éléments de mise en forme du champ optique Éléments réfléchissants
H01L 33/44 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails caractérisés par les revêtements, p.ex. couche de passivation ou revêtement antireflet
G09F 9/33 - Dispositifs d'affichage d'information variable, dans lesquels l'information est formée sur un support, par sélection ou combinaison d'éléments individuels dans lesquels le ou les caractères désirés sont formés par une combinaison d'éléments individuels à semi-conducteurs, p.ex. à diodes
G09F 9/302 - Dispositifs d'affichage d'information variable, dans lesquels l'information est formée sur un support, par sélection ou combinaison d'éléments individuels dans lesquels le ou les caractères désirés sont formés par une combinaison d'éléments individuels caractérisés par la forme ou la disposition géométrique des éléments individuels
56.
SEMITRANSPARENT ANTIREFLECTIVE ASSEMBLIES FOR DEADFRONT DISPLAY APPLICATIONS
A cover article for a display panel that includes: a substrate comprising a thickness from 50 μm to 5000 μm, an outer primary surface and an inner primary surface, wherein the substrate comprises a glass, glass-ceramic or ceramic material; an inner layered film disposed on the outer primary surface of the substrate; and an outer layered film disposed on the inner layered film. One or both of the inner layered film and the outer layered film comprises one or more absorber layers. The outer layered film comprises a plurality of alternating high refractive index and low refractive index layers. Each absorber layer exhibits a sheet resistance of at least 105 Ohms/sq. Further, the article exhibits a deadfront color shift (ΔE) of less than 4.0 for incident, measuring angles from 0˚ to 90˚.
G02B 1/116 - Multicouches comportant des couches conductrices électriques
B32B 17/00 - Produits stratifiés composés essentiellement d'une feuille de verre ou de fibres de verre, de scorie ou d'une substance similaire
B32B 17/06 - Produits stratifiés composés essentiellement d'une feuille de verre ou de fibres de verre, de scorie ou d'une substance similaire comprenant du verre comme seul composant ou comme composant principal d'une couche adjacente à une autre couche d'une substance spécifique
G02B 5/00 - OPTIQUE ÉLÉMENTS, SYSTÈMES OU APPAREILS OPTIQUES Éléments optiques autres que les lentilles
POSTECH RESEARCH AND BUSINESS DEVELOPMENT FOUNDATION (République de Corée)
Inventeur(s)
Choi, Hyeng-Cheul
Hong, Won-Bin
Huh, Jae-Won
Kang, Boyoung
Kang, Byounggwan
Lee, Changhyeong
Youn, Youngno
Abrégé
Apparatuses and methods are described for liquid crystal (LC) reconfigurable intelligent surface (RIS) substrate designs and materials. In some examples, an LC RSS device includes a first metal layer and a second metal layer, where each of the first metal layer and the second metal layer are deposited within a glass substrate. The first metal layer has a first size, and the second metal layer has a second size, wherein the first size and the second size differ. Further, device includes an LC layer disposed between the first metal layer and the second metal layer. In some examples, the first metal layer includes a plurality of columns, where each of the plurality of columns includes a first plurality of LC active layers. In some examples, the second metal layer includes a plurality of rows, where each of the plurality of rows includes a second plurality of LC active layers.
G02F 1/1333 - Dispositions relatives à la structure
G02F 1/1335 - Association structurelle de cellules avec des dispositifs optiques, p.ex. des polariseurs ou des réflecteurs
G02F 1/1337 - Orientation des molécules des cristaux liquides induite par les caractéristiques de surface, p.ex. par des couches d'alignement
G02F 1/137 - Dispositifs ou dispositions pour la commande de l'intensité, de la couleur, de la phase, de la polarisation ou de la direction de la lumière arrivant d'une source lumineuse indépendante, p.ex. commutation, ouverture de porte ou modulation; Optique non linéaire pour la commande de l'intensité, de la phase, de la polarisation ou de la couleur basés sur des cristaux liquides, p.ex. cellules d'affichage individuelles à cristaux liquides caractérisés par l'effet électro-optique ou magnéto-optique, p.ex. transition de phase induite par un champ, effet d'orientation, interaction entre milieu récepteur et matière additive ou diffusion dynamique
Disclosed herein are modular molten glass delivery apparatuses and glass manufacturing apparatuses including the same. A module of a modular molten glass delivery apparatus includes a lower carriage comprising a plurality of lower carriage rollers. An upper rail system is supported on the lower carriage. The upper rail system includes upper support rails oriented at an elevation angle α greater than 0 degrees relative to horizontal. The module further includes an upper carriage. The upper carriage includes a base plate oriented at an elevation angle β greater than 0 degrees relative to horizontal and a plurality of upper carriage rollers engaged with the upper support rails of the upper rail system to facilitate translation of the upper carriage on the upper rail system. A support frame is coupled to the base plate and a molten glass delivery conduit assembly is supported on the base plate within the support frame.
A biocidal material and method of forming is provided. The biocidal material includes a carrier and a plurality of treated copper-containing particles including a particle surface pre-treatment. The surface pre-treatment includes a copper-chelating material.
A co-shaped laminate is provided. The laminate includes a first curved glass substrate having a first major surface, a second major surface opposing the first major surface, a first thickness (h1), and a first viscosity (η1) of 1×1011 poises at a first temperature (T1); a second curved glass substrate having a third major surface, a fourth major surface opposing the third major surface, a second thickness (h2), the second thickness being less than the first thickness, and a second viscosity (η2) at the first temperature (T1); and an interlayer disposed between the first curved glass substrate and the second curved glass substrate, wherein the ratio of the first thickness to the second thickness (h1/h2) is greater than about 2.1, and wherein the ratio of the second viscosity to the first viscosity (η2/η1) is between about (h1/h2)2.55 and about (h1/h2)3.45.
B32B 17/10 - Produits stratifiés composés essentiellement d'une feuille de verre ou de fibres de verre, de scorie ou d'une substance similaire comprenant du verre comme seul composant ou comme composant principal d'une couche adjacente à une autre couche d'une substance spécifique de résine synthétique
61.
SAFETY POWER DISCONNECTION FOR POWER DISTRIBUTION OVER POWER CONDUCTORS TO POWER CONSUMING DEVICES
Safety power disconnection for remote power distribution in power distribution systems is disclosed. The power distribution system includes one or more power distribution circuits each configured to remotely distribute power from a power source over current carrying power conductors to remote units to provide power for remote unit operations. A remote unit is configured to decouple power from the power conductors thereby disconnecting the load of the remote unit from the power distribution system. A current measurement circuit in the power distribution system measures current flowing on the power conductors and provides a current measurement to the controller circuit. The controller circuit is configured to disconnect the power source from the power conductors for safety reasons in response to detecting a current from the power source in excess of a threshold current level indicating a load.
H02J 13/00 - Circuits pour pourvoir à l'indication à distance des conditions d'un réseau, p.ex. un enregistrement instantané des conditions d'ouverture ou de fermeture de chaque sectionneur du réseau; Circuits pour pourvoir à la commande à distance des moyens de commutation dans un réseau de distribution d'énergie, p.ex. mise en ou hors circuit de consommateurs de courant par l'utilisation de signaux d'impulsion codés transmis par le réseau
G01R 31/08 - Localisation de défauts dans les câbles, les lignes de transmission ou les réseaux
H02H 1/00 - CIRCUITS DE PROTECTION DE SÉCURITÉ - Détails de circuits de protection de sécurité
H02H 7/26 - Protection sectionnelle de systèmes de câbles ou de lignes, p.ex. pour déconnecter une section dans laquelle un court-circuit, un défaut à la terre, ou une décharge d'arc se sont produits
H02J 1/14 - Circuits pour réseaux principaux ou de distribution, à courant continu Équilibrage de la charge dans un réseau
H04B 10/077 - Dispositions pour la surveillance ou le test de systèmes de transmission; Dispositions pour la mesure des défauts de systèmes de transmission utilisant un signal en service utilisant un signal de surveillance ou un signal supplémentaire
H04B 10/2575 - Radio sur fibre, p.ex. signal radio modulé en fréquence sur une porteuse optique
H04B 10/80 - Aspects optiques concernant l’utilisation de la transmission optique pour des applications spécifiques non prévues dans les groupes , p.ex. alimentation par faisceau optique ou transmission optique dans l’eau
H04Q 11/00 - Dispositifs de sélection pour systèmes multiplex
An adapter receives a multi-fiber ferrule in opposing ends, the multi-fiber ferrules have different formats, end-face configurations and areas. The ferrules may be disposed in a fiber optic connector or a sleeve. In at least one embodiment, a MT ferrule is optically mated to a TMT ferrule, the MT ferrule being disposed in an MPO connector while the TMT ferrule is disposed in a VSFF connector.
A cover article (100) for a display panel includes a substrate (110), an inner layered film (130b) disposed on an outer primary surface of the substrate (110), and an outer layered film (130a) disposed on the inner layered film. The outer layered film (130a) comprises a plurality of alternating high refractive index and low refractive index layers. The high refractive index layers (130B) of the outer layered film (130a) comprise a metal oxide. The inner layered film (130b) comprises one or more absorber layers (150) having an average exctinction coefficient from 400 nm to 700 nm that is greater than or equal to 1.3. The one or more absorber layers (150) are not an oxide and formed of a metal of the metal oxide contained in the outer layered film (130a). The article exhibits a deadfront color shift of less than 7.0 for incident, measuring angles from 0° to 90°, as measured relative to a black matrix material disposed on the substrate (110).
A glass manufacturing apparatus includes a delivery apparatus defining an upstream portion of a ribbon travel path extending in a first travel direction. The glass manufacturing apparatus includes a forming roll extending along an axis parallel to the travel path and perpendicular to the first travel direction. The forming roll includes a recess that imparts a protrusion to a ribbon traveling along the ribbon travel path in the first travel direction. The forming roll includes a first surface defining the recess and a first surface characteristic. The forming roll includes a second surface defining an area surrounding the recess and including a second surface characteristic. The first surface characteristic is different than the second surface characteristic. During a cooling period of time, the first surface cools at a faster rate than the second surface. Methods of manufacturing a ribbon are provided.
A glass manufacturing apparatus is disclosed including a molten glass delivery apparatus including a lower carriage, an upper rail system supported on the lower carriage and including first and second side upper support rails oriented at an elevation angle α greater than 0 degrees relative to horizontal, and upper carriages supported on the upper rail system. Each upper carriage includes a base plate oriented at an elevation angle β greater than 0 degrees relative to horizontal, a first side upper roller coupled to the base plate and engaged with the first side upper support rail, and a second side upper roller coupled to the base plate and engaged with the second side upper support rail. One upper roller includes a rolling surface including a groove engaged with a tongue of one of the first and second side upper support rails. The other upper roller includes a flat rolling surface.
Provided is a glass substrate heat chamfering method. An edge of a glass substrate (100) is chamfered by applying thermal shock to the edge of the glass substrate (100), thereby peeling a strip (100a) off from the edge of the glass substrate (100). The strip is cut at a predetermined point thereon before being broken due to the weight thereof. The strip (100a) is cut by applying at least one of heat and a laser beam to the predetermined point or by applying a flame (300a) of a torch (300) to the predetermined point. The application of the thermal shock includes brining a heating element (210) into contact with the edge of the glass substrate (100). In the chamfering, the heating element (210) is relatively moved along the edge of the glass substrate (100) while being brought into contact with the edge of the glass substrate (100).
A glass ribbon processing apparatus including a plurality of rollers configured to translate a glass ribbon including a first portion having a first thickness adjacent to a second portion having a second thickness thinner than the first thickness, a thermal containment enclosing the plurality of rollers including an upper chamber having one or more heating elements configured to control a rate of cooling of the glass ribbon, and a lower chamber, and a modularly designed localized temperature control unit that includes a thermal element configured to cool the first portion or heat the second portion of the glass ribbon, a control arm configured to move the thermal element vertically or horizontally relative to the plurality of rollers, and a movable seal configured support the control arm and to maintain a thermal boundary between the upper chamber and the lower chamber.
A glass support apparatus (203) includes a frame including a plurality of walls defining an interior space extending along a frame axis. The glass support apparatus includes a first surface (227) positioned within the interior space and a second surface (229) positioned within the interior space and spaced apart from the first surface. The first surface and the second surface are non-parallel and converging. The glass support apparatus includes a closure (213) attached to one or more of the plurality of walls. The closure moves between an opened position, in which the interior space is in fluid communication with an exterior of the frame, and a closed position. Methods of supporting a spool of glass are provided.
B65D 85/66 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour rouleaux de revêtement de sol
B65D 85/48 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour objets particulièrement sensibles aux dommages par chocs ou compression pour feuilles en verre
B65D 85/672 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour matériaux du genre bande ou ruban enroulés en spirale plate sur noyaux
B65D 21/02 - Réceptacles de forme spéciale ou pourvus de garnitures ou de pièces de fixation, pour faciliter l'emboîtement, le gerbage ou l'assemblage
B65D 81/107 - Réceptacles, éléments d'emballage ou paquets pour contenus présentant des problèmes particuliers de stockage ou de transport ou adaptés pour servir à d'autres fins que l'emballage après avoir été vidés de leur contenu spécialement adaptés pour protéger leur contenu des dommages mécaniques maintenant le contenu en position éloignée des parois de l'emballage ou des autres pièces du contenu utilisant des blocs de matériau amortisseur de chocs
69.
SYSTEMS AND METHODS FOR MAXIMIZING ENERGY COUPLING WHILE MAINTAINING FLOTATION OF AN EXTRUDED LOG
Systems for heating an extrudate including a shield transmissive to radiant heat, wherein the shield is configured to minimize interaction between a radiative heat assembly and the air bearing, are provided. Methods for heating an extrudate, including minimizing, via the shield, an interaction between the radiative heat assembly and the air bearing, are further provided. Methods for manufacturing an extruded body from an extrudate are further provided.
B28B 11/24 - Appareillages ou procédés pour le traitement ou le travail des objets façonnés pour faire prendre ou durcir
B29C 48/91 - Chauffage, p.ex. pour la réticulation
B29C 48/355 - Transporteurs pour les objets extrudés
B29C 48/11 - Objets dont la section transversale comporte des cavités partiellement ou entièrement fermées, p.ex. tuyaux ou canaux comprenant au moins deux cavités partiellement ou entièrement fermées, p.ex. en forme alvéolaire
A glass manufacturing apparatus includes a glass ribbon forming device positioned in a first chamber. The glass manufacturing apparatus includes an enclosure surrounding the first chamber and including a second chamber substantially enclosed and isolated from the first chamber by an enclosure wall of the enclosure. The enclosure wall separates the first chamber from the second chamber. The glass manufacturing apparatus includes a gas supply apparatus in fluid communication with the second chamber. The gas supply apparatus delivers gas to the second chamber such that a first pressure in the first chamber is less than a second pressure in the second chamber.
A reflective liquid crystal display (RLCD) is provided. The RLCD includes a base surface, one or more first reflector units, and one or more second reflector units. Each first reflector unit defines a first reflection surface, and each first reflector unit is positioned on the base surface so that each first reflection surface defines a downward slope in a first orientation direction. Each second reflector unit defines a second reflection surface, and each second reflector unit is positioned on the base surface so that each second reflection surface defines a downward slope in a second orientation direction. The first orientation direction is perpendicular to the second orientation direction.
A glass manufacturing apparatus (100) includes a forming apparatus (101) that forms a glass ribbon (103) and defines a first travel path (109) of the glass ribbon (103). The glass manufacturing apparatus (100) includes a support bearing (203, 205) including a bearing surface (307, 327) and a plurality of openings (309, 329) through which gas exits to impinge upon the glass ribbon (103). The support bearing (203, 205) moves between a first position, in which the bearing surface (307, 327) is spaced a distance apart from the first travel path (109), and a second position, in which the bearing surface (307, 327) engages the glass ribbon (103) and guides the glass ribbon (103) to move along a second travel path (361) different from the first travel path (109). Methods of manufacturing a glass ribbon are provided.
B65G 49/06 - Systèmes transporteurs caractérisés par leur utilisation à des fins particulières, non prévus ailleurs pour des matériaux ou objets fragiles ou dommageables pour des feuilles fragiles, p.ex. en verre
B65H 23/02 - Positionnement, tension, suppression des à-coups ou guidage des bandes transversal
B65H 23/032 - Commande du positionnement transversal de la bande
B65H 23/038 - Commande du positionnement transversal de la bande par des rouleaux
B65H 23/24 - Positionnement, tension, suppression des à-coups ou guidage des bandes longitudinal par l'action d'un fluide, p.ex. pour retarder la bande en marche
C03B 35/24 - Transport des feuilles de verre chaud sur un support fluide, p.ex. sur du métal fondu sur un coussin gazeux
A glass including silica and titania is disclosed. An average hydroxyl concentration of a plurality segments of the glass is in a range from about 20 ppm to about 450 ppm, an average titania concentration of the plurality of segments is in a range from about 6 wt. % to about 12 wt. %, and each segment of the plurality of segments has a length of about 12.7 mm, a width of about 12.7 mm, and a height of about 7.62 mm. The hydroxyl concentration of each segment is measured using a Fourier transform infrared spectroscopy in transmission, the refractive index is measured using an optical interferometer with a 633 nm operating wavelength and a resolution of 270 microns×270 microns pixel size, and the average titania concentration is determined based upon the measured refractive index.
G03F 1/24 - Masques en réflexion; Leur préparation
C03C 3/06 - Compositions pour la fabrication du verre contenant de la silice avec plus de 90% en poids de silice, p.ex. quartz
C03C 3/076 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice
C03C 4/08 - Compositions pour verres ayant des propriétés particulières pour verre absorbant sélectivement des radiations de longueurs d'ondes déterminées
74.
ARTICLE WITH A VARIABLE THICKNESS OPTICAL COATING ON PORTIONS OF A SUBSTRATE THAT PRESENT DIFFERENT SURFACE NORMALS
An article is described herein that includes an optical coating on both a first portion and a second portion of a first major surface of a substrate. The first portion and the second portion face in different directions. The optical coating forms an anti-reflective surface, has a total thickness of less than 1000 nm, and is thicker over the first portion than over the second portion. The optical coating exhibits a first surface reflected color characterized by International Commission on Illumination (“CIE”) L*a*b* color space values of: (i) a*, from −6.0 to +4.5, and (ii) b*, from −11.0 to +6.0 at all viewing angles within a range of from 0 degrees to 10 degrees relative to a normal of the first major surface at both (i) the first portion and (ii) the second portion where the total thickness of the optical coating is 75% to 90% of the maximum value of the total thickness.
Ceramic green-bodies include from about 5 wt% to about 20 wt% of a carbonate-based polymer, from about 70 wt% to about 95 wt% of alkali-metal containing ceramic particles, from 0 wt% to about 5 wt% of a dispersant, and from 0 wt% to about 5 wt% of a viscosity modifier. Methods include heating a ceramic green-body at about 300°C or less for about 4 minutes or less to remove about 70 wt% or more of organic materials in the ceramic green-body. The sintered article includes a relative density of about 90% or more of a theoretical density. The ceramic green-body includes a carbonate-based polymer and alkali-metal containing ceramic particles. Solvent annealing apparatus include a casting chamber, a solvent-laden chamber, and a drying chamber. Methods include casting a green-body in an environment with a vapor pressure of about 1000 Pascals or more of a solvent in the green-body.
112222 of the depressed-index cladding being about 15.0 %D-micron2to about 37.0 %D-micron2332311, the common cladding surrounding and directly contacting the depressed-index cladding. Furthermore, a cable cutoff wavelength of each core portion is about 1530 nm or less and a center-to-center spacing between centerlines of adjacent core portions is about 48 microns to about 60 micron.
The present disclosure relates to a multi-fiber ferrule having a plurality of bores where each bore has an adjacent divider that separates the bores. The divider also facilitates insertion of an optical fiber into each bore.
An uncoupled-core multicore optical fiber is disclosed, the fiber including at least two core portions, each core portion including a core and a depressed-index cladding. The core having a radius r1 and a relative refractive index Δ1. The depressed-index cladding having a radius r2 and a relative refractive index Δ2, the depressed-index cladding surrounding and directly contacting the core, a volume V2 of the depressed-index cladding being about 15.0% Δ-micron2 to about 37.0% Δ-micron2. The fiber further includes a common cladding having a radius r3 and a relative refractive index Δ3 such that Δ2<Δ3<Δ1, the common cladding surrounding and directly contacting the depressed-index cladding. Furthermore, a cable cutoff wavelength of each core portion is about 1530 nm or less and a center-to-center spacing between centerlines of adjacent core portions is about 48 microns to about 60 micron.
A glass comprising titania and silica is disclosed. A plot of average hydroxyl concentration of each segment of a plurality of segments vs. distance along the glass is provided by: y=Ax2+Bx+C, wherein A (in ppm/mm2) is in a range from about 0.0 to about −0.1, B (in ppm/mm) is in a range from about −10 to about 10, C (in ppm) is about 450 or less, y is the average hydroxyl concentration (in ppm), and x is distance (in mm) such that the hydroxyl concentration of each segment is measured using a Fourier transform infrared spectroscopy in transmission and the plot extends a distance of about 50 mm or more along the glass.
C03C 3/076 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice
G03F 1/00 - Originaux pour la production par voie photomécanique de surfaces texturées, p.ex. masques, photomasques ou réticules; Masques vierges ou pellicules à cet effet; Réceptacles spécialement adaptés à ces originaux; Leur préparation
80.
AQUEOUS TREATING MEDIUM AND METHODS FOR TREATING GLASS ARTICLES WITH THE SAME
An aqueous treating medium may include water; an acid selected from the group consisting of: HCl, HBr, HNO3, H2SO4, H2SO3, H3PO4, H3PO2, HOAc, citric acid, tartaric acid, ascorbic acid, EDTA, methanesulfonic acid, toluenesulfonic acid, and combinations thereof, wherein a concentration of the acid in the aqueous treating medium is from 0.5 M to 1.5 M; a salt, wherein a concentration of the salt in the aqueous treating medium is from greater than 0 M to 2 M; a fluoride-containing compound selected from the group consisting of: HF, NaF, NH4HF2, and combinations thereof, wherein a concentration of the fluoride-containing compound in the aqueous treating medium is from 0.026 M to 0.26 M; and silica, wherein the aqueous treating medium is saturated with silica.
A method of forming a glass-based article comprises depositing molten glass onto a first molding member and pressing the molten glass between the first and second molding members by moving the first molding member and the second molding member towards one another. The pressing of the molten glass comprises moving a portion of one of the first and second molding members relative to a remaining portion thereof to form a first reduced-area pressing zone and, after formation of the first reduced-area pressing zone, moving the portion relative to the remaining portion to form a second reduced-area pressing zone where the molten glass is compressed between the first and second molding members.
A liquid lens including a first liquid comprising a polyfluoroaromatic compound represented by formula (I): Fx—(aromatic)—Y—R1. “x” is within a range of from 2 to 5. Y is one of CH2, Si(Alk)2, Ge(Alk)2, O, and S. “Alk” is a linear aliphatic chain. R1 is any organic group, but can be one of a linear aliphatic chain, a cycloaliphatic, a fluorocycloaliphatic, and an aromatic residue. “Aromatic” is any six carbon aromatic ring. Examples of the chemical compound represented by formula (I) include butylpentafluorobenzene; dimethylnonafluorohexylpentafluorophenylsilane; trimethylpentafluorophenylgennane; butoxypentafluorobenzene; cyclopentoxypentafluorobenzene; 1-n-octyloxypentafluorobenzene; cyclooctyloxypentafluorobenzene; 1-n-dodecyloxypentafluorobenzene; cyclopentylpentafluorophenylsulfide; phenoxypentafluorobenzene; 2,4-difluoroanisole; and heptafluoropentyloxypentafluorobenzene. The first liquid has a density in a range of from 0.95 g/mL to 1.35 g/mL (at 20° C.). The liquid lens further includes a second liquid that forms an interface with the first liquid. The second liquid can be substantially free of water.
G02B 1/04 - OPTIQUE ÉLÉMENTS, SYSTÈMES OU APPAREILS OPTIQUES Éléments optiques caractérisés par la substance dont ils sont faits; Revêtements optiques pour éléments optiques faits de substances organiques, p.ex. plastiques
G02B 3/14 - Lentilles remplies d'un fluide ou à l'intérieur desquelles le vide a été fait à distance focale variable
83.
LOW-MODULUS ION-EXCHANGEABLE GLASSES WITH ENHANCED THERMAL PROPERTIES FOR MANUFACTURING
Ion-exchanged alkali aluminosilicate glass articles with a ratio of peak compressive stress value to Young's modulus value of 15 or more. The glass articles may include Al2O3 mol %+RO mol %≥17 mol %, where RO mol %=MgO mol %+CaO mol %, and be substantially free of ZnO, SrO, BaO, B2O3, P2O5, Li2O, and K2O. The glass articles may have a peak compressive stress value in a range of 500 MPa to 1300 MPa. The glass articles are suitable for various high-strength applications, including cover glass applications that experience significant bending stresses during use, for example, cover glasses for flexible displays.
C03C 21/00 - Traitement du verre, autre que sous forme de fibres ou de filaments, par diffusion d'ions ou de métaux en surface
C03C 3/087 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant de l'oxyde d'aluminium ou un composé du fer contenant un oxyde d'un métal divalent contenant de l'oxyde de calcium, p.ex. verre à vitre ordinaire ou verre pour récipients creux
84.
OPTICAL SYSTEMS COMPRISING BINARY PHOTONICS LATTICES
A binary photonics lattice that includes a waveguide array having a plurality of single mode waveguides disposed in a substrate, the plurality of single mode waveguides including one or more first waveguides having a first V-number V1 and one or more second waveguides having a second V-number V2. The first V-number V1 is smaller than the second V-number V2. The one or more first and second waveguides are arranged in a linear distribution having first and second edge waveguide regions and a binary waveguide region positioned between the first and second edge waveguide regions. The binary waveguide region is a symmetrical binary representation of a decimal number of two or greater. Further, the binary waveguide region includes at least one first waveguide representing a digit 0 of the symmetrical binary representation and/or at least one second waveguide representing a digit 1 of the symmetrical binary representation.
An electrode pushing assembly and method includes a frame assembly, a plurality of driving assemblies fixedly coupled to the frame assembly, and a push frame coupled to the plurality of driving assemblies and configured to exert a pushing force against the electrode. The plurality of driving assemblies are configured to move the push frame and are each independently removable from the frame assembly and the push frame.
A system for forming a glass article includes a mold assembly and a burner assembly. The mold assembly includes a mold body that defines an open cavity configured to receive a glass-containing material in a molten state. The mold assembly further includes a plunger configured to be actuated towards the mold body and into the open cavity to press the glass-containing material into a closed volume defined by the mold body and the plunger. The mold assembly further includes (i) first surfaces that define the closed volume and (ii) one or more pairs of second surfaces that make sliding contact when the plunger is actuated. The burner assembly is configured to form a solid lubricant on active surfaces of the mold assembly. The active surfaces include all the first surfaces and at least one second surface of each of the one or more pairs of second surfaces.
A casting system in one or more embodiments is disclosed. The casting system includes a caster, a melting apparatus, and a feed system. The caster has a wall configured to define a casting passage that extends through the caster in a casting direction. The casting passage has an inlet and an outlet fluidically connected to the inlet. The melting apparatus is configured to deliver a continuous flow of molten glass to the inlet. The feed system is configured to feed a casting structure into the inlet and through the casting passage such that the molten glass delivered to the inlet contacts the casting structure and forms a cast glass composite structure continuously discharged from the outlet.
A glass comprising titania and silica is disclosed. A plot of average hydroxyl concentration of each segment of a plurality of segments vs. distance along the glass is provided by: y = Ax2+ Bx + C, wherein A (in ppm/mm2) is in a range from about 0.0 to about -0.1, B (in ppm/mm) is in a range from about -10 to about 10, C (in ppm) is about 450 or less, y is the average hydroxyl concentration (in ppm), and x is distance (in mm) such that the hydroxyl concentration of each segment is measured using a Fourier transform infrared spectroscopy in transmission and the plot extends a distance of about 50 mm or more along the glass.
324233432422, and combinations thereof, wherein a concentration of the fluoride-containing compound in the aqueous treating medium is from 0.026 M to 0.26 M; and silica, wherein the aqueous treating medium is saturated with silica.
C03C 15/00 - Traitement de surface du verre, autre que sous forme de fibres ou de filaments, par attaque chimique
C03C 17/00 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement
C03C 17/28 - Traitement de surface du verre, p.ex. du verre dévitrifié, autre que sous forme de fibres ou de filaments, par revêtement par des matières organiques
A glass including silica and titania is disclosed. An average hydroxyl concentration of a plurality segments of the glass is in a range from about 20 ppm to about 450 ppm, an average titania concentration of the plurality of segments is in a range from about 6 wt.% to about 12 wt.%, and each segment of the plurality of segments has a length of about 12.7 mm, a width of about 12.7 mm, and a height of about 7.62 mm. The hydroxyl concentration of each segment is measured using a Fourier transform infrared spectroscopy in transmission, the refractive index is measured using an optical interferometer with a 633 nm operating wavelength and a resolution of 270 microns x 270 microns pixel size, and the average titania concentration is determined based upon the measured refractive index.
C03C 3/06 - Compositions pour la fabrication du verre contenant de la silice avec plus de 90% en poids de silice, p.ex. quartz
C03C 4/00 - Compositions pour verres ayant des propriétés particulières
G03F 7/00 - Production par voie photomécanique, p.ex. photolithographique, de surfaces texturées, p.ex. surfaces imprimées; Matériaux à cet effet, p.ex. comportant des photoréserves; Appareillages spécialement adaptés à cet effet
A glass forming apparatus includes a cooling tube positioned adjacent to a travel path of a glass ribbon. The cooling tube includes a central portion including a first sidewall surrounding a central chamber and extending along a tube axis. The cooling tube includes an end portion including a second sidewall surrounding an end chamber. The end portion extends along the tube axis and is attached to the central portion. The cooling tube receives a cooling fluid within the central chamber and the end chamber. A sleeve extends along the tube axis and circumferentially surrounds the end portion. The sleeve includes a sleeve wall spaced radially apart from the second sidewall, and a thermally insulating material positioned between the sleeve wall and the second sidewall. Methods of forming a glass ribbon with a glass forming apparatus are provided.
An article is described herein that includes an optical coating on both a first portion and a second portion of a first major surface of a substrate. The first portion and the second portion face in different directions. The optical coating forms an anti-reflective surface, has a total thickness of less than 1000 nm, and is thicker over the first portion than over the second portion. The optical coating exhibits a first surface reflected color characterized by International Commission on Illumination ("CIE") L*a*b* color space values of: (i) a*, from -6.0 to +4.5, and (ii) b*, from -11.0 to +6.0 at all viewing angles within a range of from 0 degrees to 10 degrees relative to a normal of the first major surface at both (i) the first portion and (ii) the second portion where the total thickness of the optical coating is 75% to 90% of the maximum value of the total thickness.
A glass composition includes greater than or equal to 50 mol % and less than or equal to 70 mol % SiO2; greater than or equal to 10 mol % and less than or equal to 20 mol % Al2O3; greater than or equal to 1 mol % and less than or equal to 10 mol % B2O3; greater than or equal to 7 mol % and less than or equal to 14 mol % Li2O; greater than 0 mol % and less than or equal to 8 mol % Na2O; greater than 0 mol % and less than or equal to 1 mol % K2O; greater than or equal to 0 mol % and less than or equal to 7 mol % CaO; greater than or equal to 0 mol % and less than or equal to 8 mol % MgO; and greater than or equal to 0 mol % and less than or equal to 8 mol % ZnO. R2O+R′O is less than or equal to 25 mol %, wherein R2O is the sum of Li2O, Na2O, and K2O and R′O is the sum of CaO, MgO, and ZnO. The glass composition includes at least one of NiO+Co3O4+Cr2O3+CuO is greater than or equal to 0.001 mol %, CeO2 is greater than or equal to 0.1 mol %, and TiO2 is greater than or equal to 0.1 mol %.
C03C 4/02 - Compositions pour verres ayant des propriétés particulières pour verre coloré
C03C 3/091 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du bore contenant de l'aluminium
C03C 3/093 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant du bore contenant de l'aluminium contenant du zinc ou du zirconium
C03C 3/095 - Compositions pour la fabrication du verre contenant de la silice avec 40 à 90% en poids de silice contenant des terres rares
C03C 21/00 - Traitement du verre, autre que sous forme de fibres ou de filaments, par diffusion d'ions ou de métaux en surface
94.
MULTI-FIBER FERRULE WITH TAPERED TRANSITION INTO FERRULE BORE
The present disclosure relates to a multi-fiber ferrule having a plurality of bores where each bore has an adjacent divider that separates the bores. The divider also facilitates insertion of an optical fiber into each bore.
A wall-flow filter for inhibiting the emission of very fine nano-particles. The wall-flow filter includes a honeycomb body including an intersecting array of filter walls formed of a porous material and defining channels extending through the honeycomb body between an inlet face and an outlet face of the filter. The channels comprise a plurality of inlet channels that are open at the inlet face and plugged at the outlet face and a plurality of outlet channels that are open at the outlet face and plugged at the inlet face. A mixed metal oxide particle deposition is located on and/or in the filter walls of the wall-flow filter. The mixed metal oxide particle deposition comprises precious metals in an amount of less than 0.1 wt%.
96.
MODE DIVISION MULTIPLEXING USING COMBINED DEGENERATE MODES
An optical communication system can include a multiplexer/demultiplexer. The multiplexer/demultiplexer can transfer a first optical data signal between a first single-mode fiber and a first propagation mode of a few-mode fiber. The first propagation mode can have a first effective refractive index. The multiplexer/demultiplexer can transfer a second optical data signal between a second single-mode fiber and a combination of a second propagation mode of the few-mode fiber and a third propagation mode of the few-mode fiber. The second propagation mode and the third propagation mode can have a same effective refractive index that differs from the first effective refractive index. During propagation within the few-mode fiber, the second optical data signal can couple bidirectionally between the second propagation mode and the third propagation mode, while being substantially isolated from the first optical data signal in the first propagation mode.
G02B 6/28 - Moyens de couplage optique ayant des bus de données, c. à d. plusieurs guides d'ondes interconnectés et assurant un système bidirectionnel par nature en mélangeant et divisant les signaux
B82Y 20/00 - Nano-optique, p.ex. optique quantique ou cristaux photoniques
123412 314 33. Furthermore, each core of the four cores has a mode field diameter, at a wavelength of 1310 nm, of about 8.1 microns or less, and cross talk between adjacent cores is about -18 dB or less at wavelengths of 1310 nm and 1550 nm per 2 km fiber length.
A multicore optical fiber including four cores arranged in a linear configuration, the centerline of each core being spaced from the centerline of an adjacent core by a distance x of about 30 microns or less, and each core having a relative refractive index Δ1. A cladding surrounding each of the four cores, the cladding including an inner cladding region with a relative refractive index Δ2, a depressed-index cladding region with a relative refractive index Δ3, and an outer cladding region with a relative refractive index Δ4, wherein Δ1>Δ2>Δ3 and Δ1>Δ4>Δ3. Furthermore, each core of the four cores has a mode field diameter, at a wavelength of 1310 nm, of about 8.1 microns or less, and cross talk between adjacent cores is about −18 dB or less at wavelengths of 1310 nm and 1550 nm per 2 km fiber length.
A coated article for use as a display screen for automotive displays includes a substrate that is a glass or a glass ceramic and has at least one surface, and an ETC coating bonded to the surface of the substrate by inkjet printing. A method for applying the ETC coating onto the substrate to produce the coated articles includes providing the substrate having the surface, where the substrate is a glass substrate or a glass ceramic substrate. The method further includes preparing an ETC coating composition that includes a polymer and a solvent. The viscosity of the ETC coating composition is from 2 cP to 30 cP. The method further includes inkjet printing the ETC coating composition onto the surface of the substrate and curing the ETC coating composition to produce the ETC coating. Inkjet printing increases the durability and uniformity of the ETC coating.
B05D 5/08 - Procédés pour appliquer des liquides ou d'autres matériaux fluides aux surfaces pour obtenir des effets, finis ou des structures de surface particuliers pour obtenir une surface antifriction ou anti-adhésive
100.
CERAMIC SHEETS AND METHODS OF CUTTING CERAMIC SHEETS
A ceramic sheet includes a first surface, a second surface opposite the first surface, and a pair of parallel edges extending therebetween. A thickness of the ceramic sheet is defined between the first and second surfaces, a width of the ceramic sheet is defined between the pair of parallel edges, and a length of the ceramic sheet is defined as a dimension orthogonal to both the thickness and the width. The thickness is less than or equal to 100 μm, the length is greater than or equal to 10 m, and the width is less than or equal to 12 mm. The ceramic sheet has a grain size of less than or equal to 0.2 μm and a porosity of less than or equal to 5%.
B26D 7/34 - Moyens pour exécuter d'autres opérations en combinaison avec la coupe pour appliquer une couche, telle que du beurre, aux produits coupés
B65H 35/02 - Délivrance d'articles à partir de machines à découper ou à perforer linéairement; Appareils délivrant des articles ou des bandes, comportant des dispositifs pour couper ou perforer linéairement, p.ex. distributeurs de bande adhésive à partir de dispositifs pour fendre ou de perforatrices longitudinales ou avec ces dispositifs
