Abstract: Method for manufacturing a mechatronic system comprising: a step of manufacturing a mechanical structure (SM) by three-dimensional printing by fused filament deposition of at least one first electrically insulating material (M1), and a step of manufacturing at least one electrical component (CE) in contact with at least one element of said mechanical structure and secured therewith; characterized in that said step of manufacturing at least one electrical component is implemented by three-dimensional printing by fused filament deposition of at least one second material (M2), conductive or resistive, directly in contact with said element of the mechanical structure. Apparatus for implementing such a method. Mechatronic system that can be manufactured by such a method.

Abstract: Methods and systems for coating with shear and moisture sensitive materials are disclosed. A method of coating a product includes filling an inner bellows chamber of a bellows, which is provided within and isolated from an outer bellows chamber of a tank, with a predetermined amount of the coating material. The method of coating the product further includes supplying a pressurized material to the outer bellows chamber to pressurize the coating material within the inner bellows chamber to an operating pressure, and supplying the coating material within the inner bellows chamber to a spray gun at the operating pressure. The method of coating also includes determining that a measured actual pressure is within a predetermined control range of the target pressure and subsequently coating the product by spraying the product with the coating material from the spray gun.

Abstract: A method of additively manufacturing an article includes forming a first portion of the article by three-dimensional printing of a plurality of first layers from a first powder material cut having a first average particle size corresponding to a first feature resolution. The first layers have a first average layer thickness. The method also includes forming a second portion of the article by three-dimensional printing of a plurality of second layers from a second powder material cut having a second average particle size corresponding to a second feature resolution less than the first feature resolution. The second portion includes at least one feature. The second layers have a second average layer thickness less than the first average layer thickness. A three-dimensional printing system and an article formed from a powder material by three-dimensional printing are also disclosed.

Abstract: A cleaning process optimization device includes a machine learning device that learns a cleaning condition when cleaning an object to be cleaned. The machine learning device includes: a state observation unit that observes cleaning condition data indicating the cleaning condition, and contamination state data indicating a contamination state of the object to be cleaned measured before cleaning as a state variable representing a current state of environment; a determination data acquisition unit that acquires determination data indicating an adequacy determination result on accuracy of a contamination state of the object to be cleaned after cleaning; and a learning unit that learns the cleaning condition when cleaning the object to be cleaned in association with the contamination state data using the state variable and the determination data.

Abstract: An organic light emitting diode device and a manufacture method thereof, a display panel are provided. The organic light emitting diode device includes a plurality of pixels, each of the pixels includes at least two sub-pixels that are capable of generating light of different colors, and each of the sub-pixels includes a first electrode, a second electrode, and a light emitting layer between the first electrode and the second electrode; and each of the sub-pixels further includes a microcavity adjusting layer including pores, the microcavity adjusting layer is on a side of the first electrode that is far away from the light emitting layer, and a porosity and an average aperture of the pores in the microcavity adjusting layer of each of the sub-pixels that are capable of generating light of different colors are different.

Abstract: A coating apparatus for coating a component with a coating agent includes an applicator for delivering at least one coating agent jet of the coating agent to the component. The coating apparatus includes an intercepting device which in an active position intercepts the at least one coating agent jet between the applicator and the component so that the at least one coating agent jet does not strike the component.

Abstract: A projection pattern is projected onto an object from a projection point of a distance sensor. The projection pattern is created by a plurality of beams of light projected from the projection point. The plurality of beams creates a plurality of projection artifacts that is arranged on the surface of the object. A layout of the plurality of projection artifacts depends on a positional relationship between the projection point and an image capturing device of the distance sensor. At least one parameter that defines the positional relationship between the projection point and an image capturing device of the distance sensor is optimized, prior to projecting the pattern, to minimize overlap of trajectories associated with the projection artifacts. An image of the object, including at least a portion of the adjusted projection pattern, is captured. A distance from the distance sensor to the object is calculated using information from the image.

Abstract: An upper processing liquid nozzle moves back and forth between a processing position above a substrate held on a spin chuck and a standby position outside a processing cup. Before a processing liquid is discharged from the upper processing liquid nozzle having moved to the processing position, a camera takes a discharge standard image of an imaging region including the tip of the upper processing liquid nozzle. Then, multiple monitor target images of the imaging region taken successively by the camera are compared sequentially to the discharge standard image to determine discharge of a processing liquid from the upper processing liquid nozzle. The discharge standard image is obtained for each process on a new target substrate. This eliminates influence of a substrate surface to appear as a background both of the monitor target image and the discharge standard image. Thus, discharge of a processing liquid can be detected reliably.

Abstract: A pressure control method in a film forming apparatus having a plurality of incompletely partitioned processing regions in one vacuum container, includes a first adjustment step of adjusting an opening degree of an exhaust valve provided in each of the processing regions, on the basis of a target pressure and a target flow rate determined for each of the processing regions and learning information indicating a relationship between a flow rate, a pressure and an opening degree, and a second adjustment step of, after the first adjustment step, adjusting an opening degree of an exhaust valve provided in one of the processing regions, on the basis of a pressure in one of the processing regions.

Abstract: When a wave shape is formed in a sheet of paper, a suppression of a reduction in recording quality that is caused by a shape of the paper is achieved, and thus, favorable recording quality is obtained.

Abstract: A pumping apparatus includes a pump chamber, a piston, a motor, and a controller. The controller determines an imaginary terminal point by referring to a dispense command, theoretical information, and a current position of the piston. The controller corrects the imaginary terminal point to a target position by referring to a correction graph. The controller outputs a drive command to the motor for moving the piston from a start position to the target position.

Abstract: A method of making an electrode includes the step of dispersing an active electrode material and a conductive additive in a solvent to create a mixed dispersion. The solvent has a surface tension less than 40 mN/m and an ozone forming potential of no more than 1.5 lbs. ozone/lb. solvent. A surface of a current collector is treated to raise the surface energy of the surface to at least the surface tension of the solvent or the mixed dispersion. The dispersed active electrode material and conductive additive are deposited on the current collector. The coated surface is heated to remove solvent from the coating.

Abstract: To measure the mass per unit area of an applied layer in a layered film while preventing a measurement error from being caused by thickness unevenness, a per-unit-area-mass measuring device (30) includes a light projector (31a) configured to project light having a center wavelength of 405 nm, a light projector (31b) configured to project light having a center wavelength of 850 nm, light receivers (32a, 32b) configured to receive light having been transmitted through a separator (12), and a control section (33) configured to calculate the mass per unit area of a heat-resistant layer (4) on the basis of the respective transmitted-light intensities of the light having a center wavelength of 405 nm and the light having a center wavelength of 850 nm.

Abstract: The present invention is directed to a process, which can be used in the production of exhaust catalysts. In particular, the present process describes way of testing the leak-tightness of the coating equipment before a new coating campaign begins or during a running campaign.

Abstract: A pre-polymer formulation comprising quantum dots and a precursor for a polymer having a free volume parameter VFH2/? with a value less than or equal to 0.03 cm3/g is disclosed. A pre-polymer formulation comprising quantum dots and a cyclohexylacrylate monomer is further disclosed. Also disclosed are a quantum dot composition including quantum dots dispersed in a polymer matrix, the quantum dot composition being prepared from a pre-polymer formulation comprising quantum dots and a precursor for a polymer having a free volume parameter VFH2/? with a value less than or equal to cm3/g; a method; and other products including a quantum dot composition described herein.

Abstract: A coating method for coating components, e.g. motor vehicle bodywork components in a painting installation, is provided. The coating method includes moving an application device over a component surface to be coated along a pre-determined coating path, and applying a coating medium stream onto the component surface by means of an application device. The coating medium stream is not rotationally symmetrical relative to its stream axis and therefore generates on the component surface an elongate spray pattern with a particular longitudinal direction. The method further includes rotation of the application device about the stream axis relative to the coating path during the movement of the application device so that the angular position of the longitudinal direction of the spray pattern relative to the path transverse direction changes along the coating path.

Abstract: The invention relates to a spray arrangement having at least one return flow nozzle for injecting liquid into a process environment, having a storage tank for the liquid to be injected, at least one return flow nozzle, at least one feed line from the storage tank to the at least one return flow nozzle, at least one pump in the feed line, at least one return line from the return flow nozzle to the storage tank and at least one regulating valve for regulating a liquid quantity injected by the at least one return flow nozzle, wherein at least one further nozzle is provided, which is connected to the feed line by means of a controllable valve for enabling and shutting off a liquid feed.

Abstract: A substrate processing apparatus according to the present disclosure includes: a nozzle that ejects a processing liquid to a wafer; a force-feeding unit that force-feeds the processing liquid to the nozzle side; a liquid feeding pipeline that includes first and second valves and guides the processing liquid from the force-feeding unit to the nozzle; and a controller. The controller is configured to perform opening the first valve in a state where the second valve is closed and a pressure between the first and second valves is higher than a pressure between the force-feeding unit and the first valve, controlling the force-feeding unit to increase the pressure between the first and second valves that has been decreased by the opening of the first valve, and opening the second valve after the pressure between the first and second valves is decreased by the opening of the first valve.

Abstract: A monomer vaporizing device and a method of controlling the same are disclosed. The monomer vaporizing device includes: a first vaporizer and a second vaporizer that receive a purge gas and vaporize a first monomer and a second monomer, respectively; a first flow pipe and a second flow pipe that are connected to the respective vaporizers and allow the first monomer and the second monomer, vaporized by the respective vaporizers, to flow therethrough; a transition tube that is connected to the first flow pipe and the second flow pipe and supplies at least one of the first monomer and the second monomer to a deposition chamber; and a control valve apparatus that regulates monomer flow into the deposition chamber. The device facilitates smooth and uninterrupted application of monomer to the interior of a deposition chamber.

Abstract: Embodiments presented herein provide techniques for controlling deposition processes in a process chamber based on monitoring contaminant gas levels in a chamber. Embodiments include generating a data model defining acceptable levels within the chamber for each of a plurality of gas types. Gas levels of the plurality of gas types within the chamber are monitored using one or more sensor devices within the chamber. Upon determining that at least one gas level within the chamber violates the acceptable level for the respective gas type within the data model, embodiments perform a corrective action for the chamber.

Abstract: Systems and methods of a medical analytics system are described herein. The medical analytics system can include a machine learning model for processing patient tissue images for either training the machine learning model or for clinical use, such as providing information for assisting a clinician with at least diagnosing a disease or condition of a patient. Implementations of the medical analytics system can further include a user interface that is configured to allow a user to interact with a patient image for assisting with diagnosing at least a part of the tissue captured in the patient image.

Abstract: This disclosure provides a biochip comprising a plurality of wells. The biochip includes a membrane that is disposed in or adjacent to an individual well of the plurality of wells. The membrane comprises a nanopore, and the individual well comprises an electrode that detects a signal upon ionic flow through the pore in response to a species passing through or adjacent to the nanopore. The electrode can be a non-sacrificial electrode. A lipid bilayer can be formed over the plurality of wells using a bubble.

Abstract: A system for controlling an impedance of a radio frequency (RF) return path includes a matchbox further including a match circuitry. The system further includes an RF generator coupled to the matchbox to supply an RF supply signal to the matchbox via a first portion of an RF supply path. The RF generator is coupled to the matchbox to receive an RF return signal via a first portion of an RF return path. The system also includes a switch circuit and a plasma reactor coupled to the switch circuit via a second portion of the RF return path. The plasma reactor is coupled to the match circuitry via a second portion of the RF supply path. The system includes a controller coupled to the switch circuit, the controller configured to control the switch circuit based on a tune recipe to change an impedance of the RF return path.

Abstract: Disclosed is a liquid coating method. The method executes processes of: coating a coating liquid in a spiral form on a surface of a substrate by ejecting the coating liquid from the ejection nozzle while moving the ejection nozzle in a predetermined direction between the rotary axis and a peripheral edge of the substrate during rotation of the substrate; making a linear velocity at an ejection position of the coating liquid from the ejection nozzle substantially constant by reducing a number of rotations of the substrate as the ejection position is positioned closer to the peripheral edge of the substrate; and making an ejection flow rate of the coating liquid ejected from the ejection nozzle substantially constant by changing a gap between the ejection port of the ejection nozzle and the surface of the substrate based on a flow rate of the coating liquid before ejection from the ejection nozzle.

Abstract: On a vapor deposition target surface of a vapor deposition target substrate placed on a substrate tray in a vapor deposition device, display regions on which vapor deposition particles are to be deposited are arranged in alignment to be apart from each other in a direction parallel with a scanning direction, and the substrate tray includes a blocking part configured to block the vapor deposition particles to be deposited onto regions adjacent to the display regions in a direction parallel with the scanning direction. This prevents a degree of freedom in designing of the vapor deposition target substrate from being restricted even in performing scan vapor deposition.

Abstract: The present invention relates to a method for manufacturing a light extraction substrate for an organic light emitting diode, a light extraction substrate for an organic light emitting diode, and an organic light emitting diode comprising same, and more specifically, to a method for manufacturing a light extraction substrate for an organic light emitting diode, a light extraction substrate for an organic light emitting diode, and an organic light emitting diode comprising same, capable of significantly increasing light extraction efficiency of the organic light emitting diode.

Abstract: In a computer-implemented method and system for capturing the condition of a structure, the structure is scanned with a three-dimensional (3D) scanner. The 3D scanner generates 3D data. A point cloud or 3D model is constructed from the 3D data. The point cloud or 3D model is then analyzed to determine the condition of the structure.

Abstract: The present invention has an object to provide a coating vice which can reduce variation in the amount of discharge in the discharge nozzle group. A coating device 1 includes: a first supply unit 40 and a second supply unit 50 which can supply a viscous material N to the discharge nozzle group 10; and a control portion 100 which stops, at the timing at which a first time zone is switched to a second time zone, the supply in the first supply unit 40, which makes the second supply unit 50 start the supply of the viscous material N to the discharge nozzle group 10 at a second flow rate and which makes, in a second time zone, the first supply unit 40 start the preparation of the viscous material necessary in any one of a third time zone and the subsequent time zones.

Abstract: There is provided an optical laminate excellent which secures adhesiveness between the (meth)acrylic resin film (base material film) and a hard coat layer, and can prevent a reduction in scratch resistance. An optical laminate according to an embodiment of the present invention includes: a base material layer formed of a (meth)acrylic resin film; a hard coat layer formed by applying, to the (meth)acrylic resin film, a composition for forming a hard coat layer containing a curable compound and inorganic nanoparticles; and a penetration layer having a thickness of 1.2 ?m or more, the penetration layer being formed between the base material layer and the hard coat layer by penetration of the composition for forming a hard coat layer into the (meth)acrylic resin film, wherein a content of the inorganic nanoparticles is 1.5 wt % to 50 wt % with respect to a total of the curable compound and the inorganic nanoparticles.

Abstract: According to one example, a floodable sensor station is coupled to an optical cable. The optical cable may be floodable. The floodable sensor station may connect floodable optical cables as part of a permanent reservoir monitoring system. The floodable optical cable may house a plurality of floodable optical fiber conduits. The floodable sensor station may be pressure-balanced with its surrounding environment in high-pressure marine depths of 1500 meters or more.

Abstract: A display device and a method of manufacturing a display device are provided. A manufacturing method of a display device includes: forming a display module including a first area defined therein, the display module including a display panel including a lower surface and an upper surface opposite the lower surface, a first film under the lower surface of the display panel, a second film on the upper surface of the display panel, and an adhesive layer between the lower surface of the display panel and the first film; and irradiating a laser beam in an upper direction extending from the lower surface of the display panel to the upper surface of the display panel to cut the first film and the adhesive layer along an edge of the first area, the laser beam provided to the display panel having a laser power equal to or less than about 1 W.

Abstract: A tool for marking the location of a bonding plate concealed beneath a roof membrane. The tool has a magnetic attraction to the bonding plate and causes a marking assembly to vertically lower toward the roof membrane and rotate on an axle. Rotation of the marking assembly and vertical lowering causes the marking implement to come into contact with the roof membrane at a location corresponding to the location of the bonding plate beneath the roof membrane. A brake restricts the rotation of the marking assembly on the axle by coming into contact with an inner edge of a chassis. Contact between the marking implement and the roof membrane and the restriction of rotation of the marking assembly by the brake cause the marking implement to create a visible mark at a position corresponding to the location of the bonding plate beneath the roof membrane.

Abstract: The present disclosure provides a foreign object detecting device and a coating system. The foreign object detecting device includes a light emitting unit and a light receiving unit arranged side by side, the light emitting unit is used for emitting light towards a surface of a substrate to be detected, and the light receiving unit is used for detecting an optical signal of reflected light reflected from the surface of the substrate to be detected and capable of outputting the detected optical signal, and the optical signal includes brightness distribution information of the reflected light and position information of reflective spot. In the present disclosure, the foreign object is detected by emitting light towards the substrate and detecting change in brightness of the reflected light.

Abstract: Methods and apparatus for determining proper placement of a substrate upon a substrate support in a process chamber are disclosed. In some embodiments, a method for detecting substrate placement in a process chamber includes placing a substrate on a support surface of a substrate support within the process chamber; modifying a pressure within the chamber to create a detection pressure within the chamber; sensing a first temperature of the substrate support; monitoring a thermal response characteristic of the substrate support after placing the substrate on the substrate support; comparing the thermal response characteristic to a predetermined response characteristic; and determining whether the substrate is placed correctly based upon the comparison of the thermal response characteristic to the predetermined response characteristic.

Abstract: According to one embodiment, an imprint pattern forming method includes providing a substrate with a pattern formation region and a peripheral region, the peripheral region having a surface lower than a surface of the pattern formation region, located at a periphery of the pattern formation region. The method includes forming an auxiliary pattern with a predetermined height on at least a portion of the peripheral region, providing a resist layer on at least the pattern formation region, and imprinting the resist layer using a template by locating the template in a region which includes a portion of the pattern formation region and a portion of the peripheral region.

Abstract: A method of performing an imprint process on each of a plurality of shot regions of a substrate, wherein each shot region includes at least one of at least one valid chip area and at least one invalid chip area, the invalid chip area including an inhibited area in which resin coating is inhibited, the imprint process for a shot region including both the invalid chip area and the valid chip area includes coating the valid chip area of the shot region with the resin, bringing a pattern surface of a mold into contact with the resin, and curing the resin, and in the step of coating, at least the inhibited area of the invalid chip area is not coated with the resin.

Abstract: A method of improving the operation of polysilicon fluidized bed reactors is disclosed. The present disclosure is directed to the optimization of axial temperature gradients in gas-solid fluidized bed systems. Varying the width of the particle size distribution in the reactor alters the temperature gradient within the reactor, thereby providing a means of a better control of internal temperature profiles and hence better reactor performance.

Abstract: A substrate processing apparatus includes at least one process module configured to process first substrates. A position detector is configured to detect first positions of the first substrates. A control unit is configured to control the position detector so as to measure a second position of a second substrate selected from the first substrates to be processed in a same process module depending on a measurement interval set for the same process module.

Abstract: A method for calculating a coating textures indicator can comprise receiving target coating texture variables from an image. The method can also comprise accessing a relative texture characteristic database that stores a set of texture characteristic relationships for a plurality of coatings. The method can further comprise calculating a correlation between the target coating texture variables and target coating texture variables associated with a compared coating. Based upon the calculated correlation, the method can comprise, calculating a set of relative texture characteristics for the target coating that indicate relative differences in texture between the target coating and the compared coating. Each of the relative texture characteristics can comprise an assessment over all angles of the target coating.

Abstract: A film-forming apparatus and film-forming method comprising, a chamber, a first gas supply unit supplying a reaction gas for a film-forming process to the chamber, a substrate-supporting portion supporting a substrate placed in the chamber, a heating unit heating the substrate from below the substrate-supporting portion, a rotary drum supporting the substrate-supporting portion on a top thereof, and including the heating unit disposed therein, a rotary shaft disposed in a lower part of the chamber, and rotating the rotary drum, a reflector reflecting heat from the heating unit, surrounding the rotary drum, and being disposed so as to have an upper end higher in height than an upper end of the substrate-supporting portion, and a second gas supply unit supplying a hydrogen gas or an inert gas between the rotary drum and the reflector.

Abstract: An aspect of the present invention provides an ejection volume correction method for an inkjet head, including: an arranging step of ejecting functional ink as ink droplets from nozzles of an inkjet head so as to discretely arrange the ink droplets on a front surface of a substrate; a contacting step of filling the functional ink in between a mold and the substrate by causing the mold to contact the ink droplets arranged on the front surface of the substrate; a curing step of curing the filled functional ink so as to generate a functional film; a separating step of separating the mold from the functional film; a measuring step of measuring a thickness of the functional film; and a correcting step of correcting an ejection volume from the nozzles based on the measured thickness.

Abstract: Apparatus and associated methods relate to dynamically generating commands to manage the flow rate of a powder as a function of time in response to arbitrarily shaped target parts traveling along a conveyor. In an illustrative example, a controller may receive shape information about each target part as the part travels along the conveyor. The controller may dynamically generate commands to a pump to control the flow rate of powder to a reciprocating nozzle. In some embodiments, the controller may generate motion trajectory commands to the reciprocating nozzle to deliver a predetermined amount of powder to the target part as the target part travels along the conveyor.

Abstract: An apparatus able to regulate a raw material concentration, in a mixed gas of carrier gas and raw material gas, accurately and stably to supply the mixed gas to a process chamber, with a flow rate controlled highly accurately, thereby detecting a vapor concentration of the raw material gas in the mixed gas easily and highly accurately and displaying the concentration in real time without using an expensive concentration meter, etc.

Abstract: The invention relates to a direct printing method for enamelling and/or decorating on surfaces in general (ceramic, glass or metallic materials, inter alia), which are subjected to heat treatment following printing, consisting of transferring an enamel/ink, by means of the use of a device for emitting energy in the form of electromagnetic waves, preferably laser, from a carrier vehicle to the printing surface without any contact between said vehicle and the printing surface. The heat treatment, which is carried out at temperatures higher than 500° C., is used for the adherence of the enamel/ink to the substrate, producing the final ceramic and/or chromatic effect.

Abstract: A method of manufacturing a display apparatus includes: applying a first sealing material along both sides in a row direction of array substrate areas on a first mother board including a plurality of the array substrate areas formed in a matrix pattern, applying a second sealing material along both sides in a column direction of counter substrate areas on a second mother board including a plurality of the counter substrate areas formed in a matrix pattern, filling the first mother board with a liquid crystal material; and adhering the first mother board and the second mother board to each other.

Abstract: The accuracy of the coating concentration when applying a catalytically active coating to suitable carrier bodies can be increased if, following raw coating with a relatively wide fluctuation range in the coating concentration, excessive or insufficient coating applied is if appropriate corrected iteratively. Excessive coating suspension applied is removed, for example by subsequent suction, while the coating is still in the wet state, whereas insufficient coating suspension applied is topped up, for example by spraying on additional coating suspension.

Abstract: This invention relates to regenerable antimicrobial coatings with long-lasting efficacy for use in medical applications including implants, medical instruments or devices, and hospital equipment. The same coatings would also have broad utility in the consumer, industrial, and institutional markets. The coating technology would be based on sequestration of hydrogen peroxide (HP) by zinc oxide binders incorporated into the coatings.

Abstract: A liquid dispensing apparatus (1) includes a liquid contact member (2) that has measuring bores (11, 11). A first piston (3) slides in the first measuring bore (11) and a second piston (3) sliding in the second measuring bore (11). A supply channel (5) communicates with a storage unit (17). An ejection channel (6) communicates with a nozzle (18). A switching valve (4) is disposed in a space in the liquid contact member (2), and that has a first position and a second position. A valve driving mechanism (8) operates the switching valve (4). A piston driving mechanism (9) operates an arm (19) connected to the first and second pistons. The first and second measuring bores are arranged to oppose to each other on both sides of the switching valve (4), and the supply channel (5) and the ejection channel (6) are arranged adjacent to the switching valve.

Abstract: A method of making a gas separation membrane by providing a plating vessel with a volume of plating solution of gas-selective metal ions into which is placed a porous support. The plating solution is circulated over a surface of the porous support while maintaining conditions within the plating vessel so as to promote the electroless deposition. The circulation rate of the plating solution is such as to enhance the metal deposition onto the surface of the porous support in the formation of the gas separation membrane.

Abstract: A method of manufacturing an organic light emitting display apparatus by utilizing a deposition apparatus for forming an organic layer on a substrate includes: fixing the substrate to a mask assembly for forming a common layer or a mask assembly for forming a pattern layer in a loading unit; when the one or more deposition assemblies are separated from the substrate, forming an intermediate layer by depositing a deposition material discharged from the one or more deposition assemblies in a deposition unit of the deposition apparatus onto the substrate while the substrate is moved relative to the one or more deposition assemblies by a first conveyer unit; and separating the substrate on which the deposition is finished from the mask assembly for forming the common layer or the mask assembly for forming the pattern layer in an unloading unit.