Abstract: A shaping or forming apparatus, comprising a plurality of members, means to selectively lock the rows in a set position with a force greater than that used to position unlocked members, and means to selectively position members relative to each other in more than three different positions. A non definitive list of practical applications comprise at least one of: form, deform, shape, cast, mold, haptic output, visual output, control of material flow, control of force.

Abstract: A laser irradiation apparatus including a chamber configured to receive a panel including an organic layer on a substrate, a laser oscillator outside the chamber, and configured to irradiate a laser beam onto the panel in the chamber, and a transparent window at a side of the chamber, and configured to allow the laser beam to pass therethrough, wherein the laser beam is configured to remove at least a portion of the organic layer on the substrate.

Abstract: According to one embodiment, a fine processing method includes determining a resist amount required for each first region of a pattern formation surface and a total amount of resist. The method include dividing the total amount of resist by a volume of one resist drop to determine the resist drops total number. The method include determining a provisional position for the resist drop of the total number. The method include assigning the each first region to nearest one resist drop, and partitioning again the pattern formation surface into second regions assigned to the each resist drop. The method include determining a divided value by dividing the volume of the one resist drop by the required total amount of resist determined. The method include finalizing a final position of the each resist drop, if a distribution of the divided value in the pattern formation surface falls within a target range.

Abstract: The present invention provides a nano-imprinting resin stamper including a micro structure layer on a transmissive support basal material, the micro structure layer being formed of a polymer of a resin composition that contains a silsesquioxane derivative as a major constituent having a plurality of polymerizable functional groups, another polymerizable resin component having a plurality of polymerizable functional groups and different from the silsesquioxane derivative, and a photopolymerizable initiator, in which the content percentage of the photopolymerizable initiator is equal to or more than 0.3 mass % and equal to or less than 3 mass % relative to a total mass of the silsesquioxane derivative and the polymerizable resin component, and the micro structure layer permits equal to or more than 80% of light to pass therethrough at a wavelength of 365 nm.

Abstract: Standoff generating devices, arrays, and processes are disclosed for producing standoffs of various shapes, aspect ratios, and mechanical properties on a receiving surface for production of, e.g., vacuum-insulated glass units (VIGUs).

Abstract: A micro-pattern transferring stamper includes a supporting base material and a microstructure layer formed on the supporting base material, the microstructure layer is a polymer of a resin composition that mainly contains a silsesquioxane derivative containing a plurality of polymerizable functional groups, and one or plural kinds of monomer elements containing a plurality of polymerizable functional groups.

Abstract: A system for a thermal manufacturing system including a heliostat and a mold. The heliostat includes at least one reflecting surface, a steering mechanism and a controller. The steering mechanism is coupled to the at least one reflecting surface and capable of directing at least a first portion of the at least one reflecting surface toward a first one of multiple, selectable focal points. The mold is located in a second one of the selectable focal points. A manufacturing method is also disclosed.

Abstract: A method is provided, by which a three-dimensional object is manufactured by a subsequent solidification of layers of a building material in powder form at the positions in the respective layer that corresponds to the cross-section of the object by means of the action of a laser or another energy source, wherein as building material in powder form a material is used which contains the old powder that has remained as unsolidified powder in the manufacturing of one or more previously formed objects and a proportion of new powder that has not been used before in any manufacturing process, characterized in that the building material in powder form is mechanically consolidated when a layer is applied.

Abstract: A layered body comprising: a core region; at least one intermediate layer disposed around the core region; and an outer layer disposed around the at least one intermediate layer, wherein at least one of the at least one intermediate layers comprises a gas, the layered body having at least one dimension, measured across the body and through the core region, of 100 ?m or less.

Abstract: A nano-imprint mold includes a mold body having a first surface provided with a pattern having projections and recesses, a second surface opposite the first surface and a side surface between the first surface and the second surface; and a mold base having a surface for fixing the mold body thereto. In addition, the second surface of the mold body is fixed to a part of the surface of the mold base, the second surface of the mold body being disposed away from at least a part of an edge of the surface of the mold base. Furthermore, the mold body has a shape such that a width thereof in a direction orthogonal to a direction extending from the first surface toward the second surface decreases from the first surface toward the second surface.

Abstract: The method and the apparatus serve for sterilizing parisons made of a thermoplastic material which are provided for producing blow-molded containers. Sterilization is carried out using a plasma. A sterilizing device is provided, for this purpose, with a plasma generator. Sterilization is carried out following insertion of the parison into a blow-molding station or on a transfer wheel. The plasma is generated outside the parison and introduced into the parison.

Abstract: A method of controlling the orientation of glass or plastic reinforcing fibers in an injection molded polymeric/fiber article including the step of applying a high electric field to at least a portion of the mold cavity during the injection of the fiber/polymer mix and during a setup or packing time preceding the ejection of the article from the mold.

Abstract: A stereolithography machine (1) includes: a container (2) suited to contain a fluid substance (3) that solidifies through exposure to predefined radiation (4a); an emitter (4) suited to emit the predefined radiation and to solidify a layer of the fluid substance having a predefined thickness and arranged adjacent to a bottom of the container; a modelling plate (5) supports the solidified layer (6); an actuator (7) that moves the modelling plate perpendicular to the bottom of the container; a leveler (8) in contact with the fluid substance, associated with a power source suited to move them with respect to the container so as to redistribute the fluid substance in the container. The power source moves the container in each one or the two opposite senses of a direction of movement (Y) and the leveler includes two paddles (9, 10) that are opposite each other with respect to the modelling plate.

Abstract: According to one embodiment, a template manufacturing method is a method for manufacturing a template for use in an imprint processing in which a pattern having irregularities are formed on a principal surface, and the pattern is brought into contact with a resist member formed on a substrate to be processed, to transfer the pattern to the resist member, the method including implanting charged particles at least into the bottoms of concave portions of the template.

Abstract: The invention relates to a device for heating of preforms formed of plastic with infrared radiation, whereby the preform is struck by cooling air at its neck finish and on its body. Furthermore, the infrared radiators are struck by cooling air at their ends. The invention relates to a heating device in which the three cooling air streams may be controlled or regulated independently from each other.

Abstract: A mold making system for surface patterning of a roller mold is provided. The roller mold includes a transparent hollow roller and a polymer layer disposed at an outer surface of the transparent hollow roller. The mold making system includes a laser generation device, an optical path changing device, and a control device connected to the optical path changing device. The laser generation device is used for generating an ultrafast laser. The optical path changing device is disposed at an inner space of the transparent hollow roller to receive the ultrafast laser. The control device controls the optical path changing device to guide the ultrafast laser to pass through the transparent hollow roller and to be focused at a focus position in the polymer layer.

Abstract: The invention relates to a press furnace for a denture or partial denture, having a combustion chamber in which a press mold, in particular a muffle, having a press channel for the introduction of a ram can be positioned, and a drive for driving the ram, wherein, in order to improve the drive of the press furnace, the drive provided is an electromagnet, the magnetic armature or magnetic coil of which drives the ram.

Abstract: An injection molding tool includes a first mold die having a first tool face and a second mold die having a second tool face. The second mold die is configured to abut the first mold die, wherein the first tool face and second tool face are configured to partially define a part cavity between the first mold die and the second mold die. An induction heating element is embedded into the first mold die such that the induction heating element defines a portion of the first tool face. The induction heating element includes an electrical conductor, an electrically insulating material disposed about the conductor, and a ferromagnetic material disposed adjacent the electrical conductor and electrically insulating material.

Abstract: A method and a device perform selective laser sintering. In the method for laser sintering, energy is applied linearly to a cross-sectional surface of the component to be produced in order to compact the powdery material. In the case of components with cross-sectional surfaces that have a curved contour, the application of energy can be guided in a line-shaped manner following the curved contour so that the contour of the workpiece that develops is continuously replicated. Advantageously, irregularities in the contour, which are caused by the raster predetermined by the laser sintering method, can thus be largely avoided. The device for laser sintering includes a powder delivery unit which can rotate about a rotational axis located in the interior of an annularly closed cross-section of the workpiece to be produced.

Abstract: Embodiments of the present disclosure provide electrospinning devices, methods of use, uncompressed fibrous mesh, and the like, are disclosed.

Abstract: A roller type electrostatic spinning apparatus is disclosed, which includes an electrostatic spinning solution impregnation mechanism having a tank for containing an electrostatic spinning solution and a sizing roller rolled in the tank, a chain emitting electrode touching the sizing roller to coat the electrostatic spinning solution onto the chain emitting electrode, a collecting electrode, and a high-voltage power supply connected to the chain emitting electrode and the collecting electrodes respectively.

Abstract: The device for thermoforming a sheet has two molds. The first mold includes a movable plug support plate and heated plugs projecting from the plug support plate, which plugs are spaced a predetermined distance apart. A plurality of induction coils is arranged stationary in an area of the device adjacent to the plug support plate, and the plug support plate has an induction element of inductively heatable material.

Abstract: An optical shaping apparatus includes: an exposing unit for turning on/off irradiation of light to a hardening resin surface for each predetermined unit area to irradiate light collectively on multiple the unit areas with irradiation of light being on; and a scanning unit for irradiating an optical beam with a predetermined diameter to scan the optical beam on the hardening resin surface; with the exposing unit irradiating the light in an area offset by a predetermined number of unit areas toward the inner side than the unit areas overlapped with the profile line of the cross-sectional-shaped data on the hardening resin surface; and with the scanning unit scanning an optical beam having a first diameter along a center line offset from the profile line of the cross-sectional-shaped data, and scanning an optical beam having a second diameter shorter than the first diameter along the inner side of the profile line.

Abstract: A windshield repair device includes a bridge, an injector attached to the bridge and at least one UV, e.g., light emitting diode (LED), light source attached to the bridge or integrated into bridge or the injector to provide UV light within or around the injector. The UV, e.g., LED, light source can also be attached to an existing windshield repair device having a bridge and an injector attached to the bridge, so as to retrofit an existing windshield repair device to provide UV light within or around the injector. A method for curing resin provided in a crack in a windshield can be carried out by exposing the resin to UV light from at least one UV LED light source.

Abstract: The present invention relates to a molding system (100) including (but not limited to): (i) an electrically chargeable conduit (102), and (ii) an electrical-charge source (104) configured to provide an electrical charge to the electrically-chargeable conduit (102), the electrical charge hastening flow of a resin (106) along the electrically-chargeable conduit (102).

Abstract: System for practicing a method of making a low cost, light weight impact deflecting material, comprising directionally aligned single walled carbon nanotubes in an epoxy resin composition, that is near impervious to bullets fired at close range at all angles of incidence, that does not deteriorate upon abrasion or when exposed to wide ranges of temperature and humidity, and that when used to construct a protective shield for a body armor vest protects the wearer from blunt trauma effects.

Abstract: A laser-engraveable composition comprises one or more elastomeric rubbers including at least 10 parts of one or more CLCB EPDM elastomeric rubbers, based on parts per hundred of the total weight of elastomeric rubbers (phr). The laser-engraveable composition further comprises 2-30 phr of a near-infrared radiation absorber and either 1-80 phr of an inorganic, non-infrared radiation absorber filler, or a vulcanizing composition that comprises a mixture of at least two peroxides. One first peroxide has a t90 value of 1-6 minutes as measured at 160° C., and a second peroxide has a t90 value of 8-20 minutes as measured at 160° C. This laser-engraveable composition can be used to form various flexographic printing precursors that can be laser-engraved to provide relief images in flexographic printing plates, printing cylinders, or printing sleeves.

Abstract: The invention relates to a novel method for electrospinning fibers wherein the fiber-spinning solution is infused with gas bubbles which travel through the electrospinning fluid, causing the bubbles to be coated with electrospinning solution. The coated bubbles, in turn, in response to an applied electrical force, generate jets of the electrospinning fluid that travel away from the bubble surface. The invention further relates to the fibers formed by this bubble-jet process and to products made therefrom.

Abstract: A system and method for layer-by-layer production of an object is provided. The system includes a construction shape having a carrying surface adapted for carrying a layer of build material, a plate having a holding surface adapted for holding an object in an object build area, a moveable reservoir having a plurality of containment surfaces defining a containment area adapted for containing a volume of build material within the moveable reservoir, and an exposure unit adapted for exposing at least a portion of the layer of build material in the object build area so that the portion of the layer of build material solidifies to form a solidified layer of the object.

Abstract: Provided are a method and an apparatus for modifying particle size of powders in closed items, comprising the exposure of said items to external electric field of suitable parameters. The degree of agglomeration of the particles can be increased or decreased. Applications to neutralization of harmful powders in mails, to dry agglomeration and to volatilization of powders in food industry and in pharmacology are described.

Abstract: This invention discloses apparatus for generating an ophthalmic lens with at least a portion of one surface free-formed from a Reactive Mixture. In some embodiments, an ophthalmic lens is formed on a substrate with an arcuate optical quality surface via a source of actinic radiation controllable to cure a definable portion of a volume of Reactive Mixture.

Abstract: A three-dimensional modeling apparatus includes: a stage; a regulating body having a surface including a linear region along a first direction and being arranged to face the stage so that the linear region of the surface comes closest to the stage; a supply nozzle configured to supply a material to be cured by energy of an energy beam to a slit region which is a region between the stage and the linear region; a movement mechanism configured to move the regulating body and the stage relative to each other along a second direction other than the first direction to form a cured layer of the material for at least one layer; and an irradiation unit configured to irradiate the material supplied from the supply nozzle to the slit region with the energy beam under a state in which the stage and the regulating body rest relative to each other.

Abstract: A nanoimprint mold includes a flexible body and a molding layer formed on the flexible body. The molding layer includes a plurality of protrusions and recesses. The molding layer is a polymer material polymerized via a cross linking polymerization of a nanoimprint resist which includes a hyperbranched polyurethane oligomer (HP), a perfluoropolyether (PFPE), a methylmethacrylate (MMA), a diluent solvent and a photo initiator.

Abstract: A medical device in which a part to be secondarily shaped comprises a molded silicone rubber article is subjected to heatless shaping by irradiation with electron-rays. The irradiation with electron-rays enables shaping and, furthermore, sterilization under some conditions. In a medical device comprising a part in which at least a silicone rubber is used and the mechanical properties of the silicone rubber preferentially appear, the shape of the above-described part upon molding is deformed with the use of a correcting member to a level exceeding the desired deformed shape and maintained in this state. Next, electron-ray irradiation is conducted in this state and then the correcting member is eliminated. Thus, the desired deformed shape intermediate between the shape upon the molding and the shape upon the electron-ray irradiation can be obtained.

Abstract: An ultraviolet (UV) light-emitting diode (LED) device for curing fluids such as inks, coatings, and adhesives, for example. In one embodiment, LEDs are positioned on faces defined by an inverted recess in a base portion. The LEDs are configured such that the light beams emitted from the LEDs converge at a single area or point to provide a single, focused area or point of amplified power from the LEDs. An optical culmination device may be used to further intensify the power output from the LEDs. The optical culmination device provides enhanced power output from the UV LED device which makes the curing process more efficient than previous curing systems.

Abstract: An insulated die plate assembly for use in underwater pelletizing and other granulation processes includes a thin, continuous air chamber formed across the plate assembly generally parallel to the die face such that the heated upstream portion of the die plate assembly is thermally insulated from the downstream portion. The air chamber is atmospherically equilibrated by venting the air chamber to the atmosphere. The plurality of extrusion orifices, either individually or in groups, are formed in extrusion orifice extensions that extend through the insulation chamber so that the process melt to be granulated can pass therethrough. The orifice extensions and the components forming the air chamber around the orifice extensions channel heat along said extensions to maintain the process melt therein at a desired temperature, to help rigidify the die plate assembly and to better seal the air chamber.

Abstract: An in-mold forming apparatus including a first mold and a second mold for injection molding and a film feeding mechanism for feeding in-mold foil between the first mold and the second mold. A transfer foil is formed on the in-mold foil. The in-mold forming apparatus further includes a mold closing mechanism for closing the first mold and the second mold, thereby to fix the in-mold foil inside a cavity formed between the first mold and the second mold, a resin injection forming mechanism for injecting fused resin into the cavity, thereby to unit the transfer foil formed on the in-mold foil with the resin, and a charger arranged in the neighborhood of at least one of the first mold, the second mold, and the in-mold foil. The charger includes a charging unit for freeing ions and charging particles in the neighborhood of the in-mold foil, and an electrode for adsorbing the particles charged by the ions.

Abstract: Injection molding, parts onto a carrier web (34) located between mold halves (18,20). Flow of polymer melt into the mold is assisted by application of ultrasonic energy to the mold cavity. After the molding operation, mold halves are separated, and the carrier web is advanced, or indexed, to a next position for another molding sequence. Molding apparatus comprises a moving mold face (20), that can move toward and away from a first mold member (18) (which can be stationary) in which the mold cavity is located, a means (24,25,26,30,32) for moving and/or indexing carrier web between the first mold member and the moving mold face, means (16) to inject polymer melt into the mold cavity, and an ultrasonic system (42) providing ultrasonic energy to the mold cavity. The carrier web can transport molded parts to subsequent process steps, such as coating, drying, inspection, curing, assembly or packaging.

Abstract: A transfer apparatus, for molding a resin on a substrate using a mold on which a pattern is formed and releasing the mold from the resin to transfer the pattern onto the substrate, includes a charge removing device configured to remove a charge of the mold, and a detector configured to detect an electric potential of the mold. The charge removing device is configured to remove the charge of the mold if the electric potential of the mold detected by the detector is not less than a predetermined value.

Abstract: A game ball, such as a soccer ball, having a cover comprised of one or more cover panel blanks and one or more reinforcement material blanks, is provided. The cover panel blanks and reinforcement material blanks are heat bonded together so that the free edges and interior panel boundaries of the cover panel blanks are aligned with the reinforcement material blanks.

Abstract: There are provided a device and a method for layer-wise generative manufacturing of three-dimensional objects by selective solidification of a solidifiable building material in liquid or powder form. By a rotational movement of the building region (2), in which the objects are manufactured, with respect to a material application device (7) for applying layers of the building materials and a solidification arrangement (1) the material application device (7) and the solidification arrangement (1) can be used simultaneously at different places in the building region.

Abstract: The invention relates to a hood for sucking-up fine particles, including: a mouth intended to be placed close to a wall, a base having a window through which a laser beam can pass, an intermediate portion between the mouth and the base, and a suction outlet disposed on the intermediate portion of the hood and designed to suck-up fine particles. The hood is characterized in that it comprises at least one air intake positioned near the base and, during operation, capable of creating a stream of air at the base of the hood so as to prevent fine particles from being deposited on the window.

Abstract: The invention relates to a method and a device for machining the periphery of a workpiece (8) by means of a laser (1). The device includes a peripheral mirror (5) with a peripheral mirror system axis (9) and an optical system which couples a radiation beam (3) perpendicular to the peripheral mirror system axis (9) into the peripheral mirror (5) such that it hits the workpiece (8) after several reflections, the workpiece axis (11) extending in the same direction within the peripheral mirror (5) than the peripheral mirror system axis (9). According to the method of the invention, the radiation beam (3) is coupled into the peripheral mirror (5) over a predefined machining time, wherein the workpiece (8), the peripheral mirror (5) and/or the optical system are maintained in a relative position of rest or moved in relation to one another.

Abstract: The invention relates to a curing tool (11) for curing a composite material part formed by bundles of fibers embedded in a resin matrix in an installation, such as an autoclave, allowing the curing of the part by means of applying high pressures and/or temperatures, comprising at least one mechanical vibrating actuator (1) acting on the curing tool (11) itself to facilitate resin distribution in the part during the curing process.

Abstract: The present invention relates to methods of making preforms, fiber-reinforced molded articles and fiber mats, wherein the methods use electroluminescent devices such as LED's and/or quantum dots located on a surface of the mold.

Abstract: A method of thermal forming of refractory alloy suture needles is disclosed. Needle blanks made from refractory alloys are used to form surgical needles, which are heated to a temperature above the ductile to brittle transition temperature but below the recrystallization temperature of the refractory alloy. The heated needle blanks are then mechanically formed into a surgical needle. A Fixture and an apparatus for forming refractory alloy surgical needles using this method are also disclosed.

Abstract: Methods for making a micofluidic device according to embodiments of the present invention include defining a cavity. Polymer precursor solution is positioned in the cavity, and exposed to light to begin the polymerization process and define a microchannel. In some embodiments, after the polymerization process is partially complete, a solvent rinse is performed, or fresh polymer precursor introduced into the microchannel. This may promote removal of unpolymerized material from the microchannel and enable smaller feature sizes. The polymer precursor solution may contain an iniferter. Polymerized features therefore may be capped with the iniferter, which is photoactive. The iniferter may aid later binding of a polyacrylamide gel to the microchannel surface.

Abstract: A molding method includes: drawing cross-section elements of a three-dimensional object as a molding target on a drawing surface of a drawing stand with a liquid whose curing is precipitated by receiving activation energy as cross-section patterns; applying the activation energy to the liquid configuring the cross-section patterns in a state in which the cross-section patterns is pinched between the drawing stand and a molding stand; and detaching the cross-section patterns after being applied with the activation energy from the drawing stand and transferring the cross-section patterns to the molding stand side, wherein the drawing surface has a liquid repellent area that is an area representing liquid repellency for the liquid and a lyophilic area that is independently formed in an island shape within the liquid repellent area and is an area representing lyophillicity stronger than that of the liquid repellent area for the liquid.

Abstract: A system for processing plastic feed material includes a machine having a barrel and a screw that rotates in a repetitive cycle in the barrel. An induction winding encircles and extends along an outer surface of the barrel. A control system includes a controller that determines a duty cycle referenced to a length of the machine cycle in response to an error between a desired barrel temperature and a current barrel temperature. The controller electrically connects the power supply to the induction winding at least once during each cycle for a period whose length corresponds to the duty cycle.

Abstract: An apparatus for making fiber-reinforced molded articles having a mold surface with a configuration corresponding to at least a portion of a molded article. An electromagnetic energy production element produces electromagnetic energy required to cure the binder. The element is selected from electroluminescent devices, quantum dots and combinations thereof. The element is positioned on the mold surface so as to contact the electromagnetic energy-curable binder with the produced electromagnetic energy while the reinforcing fibers are on the mold surface.