Abstract: The invention relates to shaped bodies having high thermooxidative stability, which can be produced by means of direct forming and hot compression molding processes, and to a novel polyimide powder for production thereof and to a process for production of this polyimide powder.

Abstract: The invention relates to a method and to an installation for separating individual valuable materials from mixed, in particular milled, plastic waste, comprising film parts, laminated film parts and hard plastic parts, plus optionally impurities. Any impurities are separated from the plastic waste. Next the plastic waste is separated into hard plastics and films as well as laminates, and the hard plastics are separated from the films, and finally the hard plastics are separated into the different types of plastic. At least one separation step comprises a sink-or-float separation.

Abstract: A separation device includes a first shredding unit, a first separation unit, and a first air pipe. The first shredding unit shreds a processing target containing a first material and a second material. The first separation unit rotates a first tubular portion in a state in which the processing target shredded by the first shredding unit is accommodated therein, thereby separating the second material passing through first holes from the processing target. The first air pipe transfers the processing target shredded by the first shredding unit to the first separation unit with air pressure. The first air pipe has a first portion that extends in a first direction, and a second portion that is connected to the first portion on a downstream side of the first portion and that extends in a second direction substantially orthogonal to the first direction.

Abstract: On a foam plastics molding machine, a molding unit, defined by a mold and an interface frame equipped with a number or quantity of plastic molding material and operating fluid inlets, is loaded into a raised window in a fixed frame of the machine by positioning the molding unit in a fixed position on a trolley; positioning the trolley astride a fixed platform; raising the platform so that vertical ribs on the interface frame slideably engage corresponding vertical guides forming part of the machine and on a level with the window; connecting the guides to the ribs; and moving the guides towards the window.

Abstract: An apparatus and method for producing a fiber-reinforced plastics casting (FRP), includes a molding box filled with free flowing molding material, in what a prototype of casting or a textile preform is inserted, forming a mold cavity for infiltration the inserted preform of textile with synthetic resin material in order to form a fiber-reinforced plastics casting (FRP).

Abstract: A pallet includes a rigid body that supports a concrete product and a polymer layer that corresponds to a geometry of the concrete product within a predetermined tolerance. One or more flanges with apertures are provided with the rigid body for the polymer layer to attach thereto. The polymer layer can extend outward from the rigid body to form a portion of the dimensions for the concrete product within predefined tolerances.

Abstract: Disclosed herein is an in-mold transfer film including a base film, a release film, a printed layer, and an adhesive layer which are stacked in series from bottom, wherein the release layer comprises a matte surface layer. Also disclosed herein is a method for manufacturing an in-mold transfer film including forming a release layer on the upper surface of a substrate layer; forming a printed layer on the upper surface of the release layer; and forming an adhesive layer on the upper surface of the printed layer, wherein the release layer comprises a matte surface layer.

Abstract: The invention relates to a method for curing of a composite material. The method involves applying heat to only a first region of said composite material, such that said first region is heated to a temperature above the cure onset temperature of said curable resin, thus initiating curing of said curable resin in said first region; and maintaining the composite material in an insulated state, such that the curing of said curable resin spreads to regions of the composite material outside of said first region.

Abstract: A mold of at least one embodiment of the present invention includes: a base; a conductive layer provided on the base; and an anodized film provided on the conductive layer, the anodized film having an inverted motheye structure in its surface, the inverted motheye structure having a plurality of recessed portions whose two-dimensional size viewed in a direction normal to the surface is not less than 10 nm and less than 500 nm, wherein the base, the conductive layer, and the anodized film are capable of transmitting ultraviolet light.

Abstract: There is provided a support structure for use with 3D printing of objects from computer-aided designs. The support structures include fine points that contact the down-facing surfaces of the 3D object being printed in order to adequately support the 3D object while also being adapted for easy removal after the 3D print process is complete. The fine points are possible by controlling the operation of the dispenser to provide a precise amount of material in a precise location. The dispenser jumps from a first fine point to a second fine point by retracting the print material after the first fine point is printed and then moving the dispenser vertically relative to the first fine point before the dispenser is moved horizontally to the second fine point.

Abstract: A seat structure (1) and a method for the production thereof (1) are provided. A preliminary injected molded article (6) is injected-molded into an injection mold and is subsequently provided with fiber layers in the same injection mold, the layers are filled, at the end, with reactive components. The reactive components are mixed in a mixing chamber directly before injection into the injection mold to form a reactive matrix. The injection takes place prior the reaction of the reactive matrix.

Abstract: An apparatus for injecting a two-tone interior panel may include a skin including a surface portion and a folded portion extending from an end of the surface portion, an upper mold under which the skin is disposed, and a lower mold that slides up or down below the upper mold. When the lower mold is elevated, a portion of the lower mold corresponding to the folded portion may come in indirect contact with the upper mold with the folded portion therebetween, and a portion of the lower mold corresponding to the surface portion may form a space between the lower mold and the surface portion into which a first resin is to be injected.

Abstract: An optical lens for an optical communication system is provided. The optical lens includes a front portion, a back portion opposite to the front portion, and a converging lens. The front portion includes a front end surface. The front portion defines a recess in the front end surface. The front portion includes a protrusion step protruding from a bottom surface of the recess. The converging lens is formed on the protrusion step.

Abstract: A piston has a one-piece body having a first portion and a second portion. The second portion is integrally formed with the first portion, is flexibly movable between a first position and a second position relative to the first portion, and is biased toward the first position. The first portion has an orifice, and the second portion has a seal member. When the second portion is disposed in the first position, the seal member is disposed in a sealed arrangement with the orifice, and when the second portion is disposed in the second position, the seal member is disposed in an unsealed arrangement with the orifice.

Abstract: A rotary joint for transferring melted plastic from at least one extruder to a plurality of molds of a rotary machine for molding preforms, the joint comprising a fixed structure (3?) provided with a fixed longitudinal element (23) therein, defining a longitudinal axis (Y), and a movable structure (3?) which can rotate about said axis (Y) and is adapted to be integrally fixed to the rotary machine; wherein a first passage channel (11) is provided within said fixed element (23); wherein a second passage channel (11?) is provided within said movable structure (3?) and coaxial to said first passage channel; said second passage channel (11?) being in communication at a first end thereof with said first passage channel (11), and being in communication at a second end thereof with a plurality of lateral radial channels (52) provided within said movable structure (3?); wherein there is provided, between the fixed structure (3?) and the movable structure (3?), a gap in which a spiral seal (24) is arranged for ensurin

Abstract: The clamping device has tie bars which are connected to a fixed platen and have engaged parts at a movable platen side, clamping cylinders which are provided on movable platens, half nut devices which are connected to pistons of the clamping cylinders and can mesh with the engaged parts, and stopper devices which restrict the movement of the half nut devices. Each stopper device has at least a driving unit and a stopper part which is driven in a mold opening and closing direction relative to the movable platen by driving of the driving unit and can engage with the half nut device from the fixed platen side. No winding transmission mechanism is interposed between the driving unit and the stopper part.

Abstract: A side blow molding apparatus of (100) includes upper guide rails (106) and lower guide rails (108). The apparatus (100) includes a side blow device (110) having a blow pin assembly (112) and an inner support assembly (114). The blow pin assembly (112) includes a blow pin driver (116) formed as a cylinder (118). The blow pin assembly (112) also includes a blow pin (122) connected to a shuttle system (124) which, in turn, is connected to the cylinder (118). The shuttle system (124) operates so as to move the blow pin (122) in a linear manner. The inner support assembly (114) includes an inner support driver (138) connected to an extender (144). The inner support driver (138) extends and retracts the extender (144) for raising and lowering the inner support (142). The blow pin (122) is positioned on the shuttle system (124) so that the pin (122) can be shuttled in and out of a parison during the blow molding process.

Abstract: Provided is a process for forming a sheet of thermoplastic material into a three-dimensional shape, the process comprising the steps of (i) forming the sheet at a temperature below its glass transition temperature to produce a first formed shape in the sheet, followed by (ii) raising the temperature of the first formed shape (20) to above its glass transition temperature whilst a male former (12), having at least a portion of its profile being substantially the same as that of the first formed shape (20), is positioned to substantially align at least a portion of its profile with that of the first formed shape (20), thereby restricting the first formed shape from shrinking back towards its original sheet form, followed by (iii) further forming the first formed shape (20) at a temperature below that of the glass transition temperature, to form a second formed shape (24), followed by (iv) raising the temperature of the second formed shape (24) to above its glass transition temperature whilst a male former (16),

Abstract: A filament winding apparatus that connects a driven shaft to a driving shaft automatically includes a rotation unit which can rotate a driving shaft 13 forward or reversely, a control unit which can control start or stop of the rotation of the driving shaft, and connection units which can connect a driven shaft attached to a liner to the driving shaft when phases of the driven and driving shafts are in agreement with each other. A fiber bundle is wound onto an outer peripheral surface of the liner by rotating the liner. A detection unit detects the phase of the driven or the driving shaft. Based on information obtained from the detection unit at the time of connecting the driven shaft to the driving shaft, the control unit rotates the driving shaft and adjusts the phase thereof to make the phases of the driven and driving shafts in agreement with each other.

Abstract: An apparatus for fabricating a fiber reinforced thermoplastic composite structure is described. The apparatus comprises a localized heat source arranged to heat a portion of a stack of fiber reinforced thermoplastic material layers and an ultrasonic transducer arranged to locally introduce ultrasonic energy waves to the heated portion of the fiber reinforced thermoplastic material layers. The apparatus makes it possible to achieve ultrasonic consolidation of the layers occurs.

Abstract: A method of doping a substrate with dielectric dopant particles. The substrate, comprising an organic polymer, is exposed to a first layer comprising a first plurality of dielectric dopant particles. The organic polymer has a thermal conductivity that is less than 5 Wm?1K?1 and a lossiness that is less than a lossiness of the first plurality of dielectric dopant particles. The substrate and first layer are irradiated by an energy source operating at an operating frequency. During the irradiation, the first plurality of dielectric dopant particles of the first layer diffuses into the organic polymer of the substrate. Irradiation continues for a first desired time to achieve a first desired depth of penetration of the first plurality of dielectric dopant particles into the organic polymer.

Abstract: An automatic attaching apparatus of a foamed seal member includes an attaching hand handling a foamed seal member, a preset machine in which the foamed seal member is preset, a removing machine removing a release paper, and a robot moving the attaching hand. The attaching hand picks up the foamed seal member from the preset machine, presses the foamed seal member from which the release paper is removed against an attaching surface of a work using a pressing roller in a state where the foamed seal member is floated by an air floating device, and sends out the foamed seal member to attach the foamed seal member to the attaching surface of the work.

Abstract: An illumination system for use in a system (1) for layerwise production of a tangible object (5) in a liquid reservoir (2) comprises an image forming element (21), an image projection system (22, 23) and a microlens array (7). The illumination system (20) further comprises a controller (24) for controlling the microlens array (7) to perform a movement (9) which is relative to at least part of the image projection system (22, 23) and for controlling the image forming element (21) to form time-varying two-dimensional images synchronously with said movement in such way that microspots (17) describe and solidify a predetermined area of a liquid layer (10) when said movement (9) is also relative to the object (5) under construction.

Abstract: A fused filament fabrication system and method comprises a motor for moving the system along a linear rail during operation, a drive gear coupled to the motor. The drive gear rotates in the direction of the motor during operation and selectively operatively engages first or second idler gears during operation of the system. The system also comprises first and second filaments for the selective passage of material to corresponding first and second extruders, the first filament is positioned between the first idler gear shaft and idler bearing and the second filament is positioned between the second idler gear shaft and idler bearing.

Abstract: An extruder or other similar tool head of a three-dimensional printer is slidably mounted along a feedpath of build material so that the extruder can move into and out of contact with a build surface according to whether build material is being extruded. The extruder may be spring-biased against the forward feedpath so that the extruder remains above the build surface in the absence of applied forces, and then moves downward into a position for extrusion when build material is fed into the extruder. In another aspect, modular tool heads are disclosed that can be automatically coupled to and removed from the three-dimensional printer by a suitable robotics system. A tool crib may be provided to store multiple tool heads while not in use.

Abstract: In one aspect, inks for use with a 3D printer are described herein. In some embodiments, an ink comprises a polymerizable material and a reactive wax comprising a saturated alkyl moiety bonded to an ethyleneically unsaturated moiety through a urethane, urea, ester, or carbonate ester linkage, wherein the ink is free or substantially free of non-reactive wax.

Abstract: The present invention relates to apparatus, devices and methods for conveying particulate material during the manufacture of patterns in layers, wherein powder is conveyed out of a reservoir into a spreader unit and, if applicable, excess powder fed to the spreader unit is again conveyed back into the reservoir and wherein this conveying takes place in a closed conveying circuit.

Abstract: A method for manufacturing a custom wearable and/or implantable medical device, such as an orthosis (e.g., an ankle brace, etc.), a prosthesis or the like, includes use of scanning processes. A digital model of a surface may be applied to a digital device model to define a custom digital device model. The digital model and, thus, the custom digital device model may include one or more standard features. The custom digital device model may be used with an automated manufacturing process to make some or all of the custom wearable and/or implantable medical device. In some embodiments, additive manufacturing processes may be used to form a portion or all of the custom wearable and/or implantable medical device.

Abstract: A printing system for forming three-dimensional objects includes two laterally spaced rails, each of the rails have an internal cavity extending through the rail along a longitudinal axis. The printing system further includes two heating devices, one heating device is connected to the internal cavity of one of the two laterally spaced rails and the other heating device is connected to the internal cavity of the other of the two laterally spaced rails to enable each heating device to heat a surface of the rail in which the heating device is positioned. The printing system further includes a platform configured to move along the laterally spaced rails. The printing system also includes at least one of a pair of scrapers, wiper pads, and wiper blades mounted to the cart.

Abstract: A molding element of a mold for molding and vulcanizing a tire tread, this tread having a tread surface intended to come into contact with the ground when the tire is rolling. The molding element comprising a molding surface intended to mold part of the tire tread surface and a blade of a height intended to mold a sipe or a groove in the tread, this blade extending in a first direction of extension Y. The molding element has two cutting means positioned on either side of the blade at a certain distance from this blade. The molding element has a third cutting means of height extending in a second direction of extension X, this second direction of extension X making an angle ? with the first direction Y which is between 75° and 105°. The height of the third cutting means is greater than the height of the blade.

Abstract: An apparatus for forming a container comprises a hopper assembly configured to store a plurality of blanks. Each blank includes a bottom panel, a pair of opposing end panels, at least one stacking tab, at least one inner side panel, and at least one outer side panel. A transport mechanism is positioned below the hopper assembly and is configured to transport a blank of the plurality of blanks from a first position to a second position. A pair of opposing folding plows is positioned below the hopper assembly. The folding plows are configured to rotate the inner side panels and the stacking tabs of the blank as the blank is transported from the first position to the second position. At least one stacking tab bullet is coupled to each folding plow. Each stacking tab bullet is configured to move a respective stacking tab relative to a corresponding inner side panel.

Abstract: A cover member of an illuminating unit is formed of a film insert molded product, in which a film is disposed on a decorative face. The film is arranged so an end part of the film is positioned in front of an end part of the decorative face, whereby a film end protecting area formed of an exposed part of a molded resin layer is provided between the end part of the decorative face and the end part of the film, and a surface of the film end protecting area is made flush with the surface of the film. A corner between the end part of the decorative face and an end face of the molded resin layer is set to be an acute angle, and the end face of the molded resin layer functions as a contact face with respect to a ceiling trim.

Abstract: In one embodiment, the modular display includes aggregates of individual panel tiles arranged between two large plastic sheets. The footprint of the large plastic sheet sandwich becomes the dimension of the display screen. The tilettes are phosphor emission panels with a full complement of emittable pixels. By separating the tilettes from the final full dimension sheet, the tilettes can be manufactured in transportable sizes and the outer full dimension sheets can be rolled for easy transport to the final install location.

Abstract: An open perforated assembly typically includes a film layer (26) on one side of the open perforated assembly, and an adhesive layer (32) and a release liner (42) on the other side. The layers and liner are perforated with a plurality of holes (6). The assembly is devoid of any imperforate layer. The perforated liner has a first color visible from the other side. Upon removal of the perforated release liner the appearance of the assembly from the other side is similar to the appearance before removal of the perforated liner. The assembly may be imaged by digital inkjet printing using a digital inkjet machine. Its printheads are spaced from one side of the open perforated assembly and an ink receiving surface (62) is located on the other side such that ink that is jetted from the printheads and passes through the holes in the open perforated assembly is deposited on the ink receiving surface.

Abstract: A printable blank sheet includes a sheet with a top substrate and a bottom layer, a dry lift adhesive connecting the top substrate to the bottom layer, cut lines in the sheet that extend through the top substrate and the dry lift adhesive but not through the bottom layer, and an object with an intricate shape cut into the top substrate with a periphery of the object defined by the cut lines. The object can be removed from the sheet by separating the object and the bottom layer along the dry lift adhesive.

Abstract: Inverted Nanocone Structures and Its Fabrication Process. The method of fabricating nanotextured structures includes making a master mold having an array of tapered structures to be replicated. The master mold is pressed into a curable polymer supported on a substrate and the polymer is cured. Thereafter, the mold is detached from the cured polymer to form the nanotextured structure.

Abstract: A sheet entity, in particular for use as a skin panel for an aircraft fuselage, with a carbon fiber-reinforced plastic laminate and an aluminum-based metal laminate in the edge region, which are connected with one another by means of an adhesive bond, and thereby are electrically insulated from one another, and are stepped back by layers. Also disclosed is a fuselage cell of an aircraft with at least one sheet entity of this type.

Abstract: Systems and method for controlling the flow and dissipation of thermal energy away from a weld between two components are provided. In one example embodiment, a structure may comprise a protrusion; a first component thermally coupled to the protrusion; a second component having a lower heat dissipation rate than the first component; a weld formed using a welding process to couple the protrusion to the second component, wherein the welding process generates thermal energy; and wherein the first component in combination with the protrusion dissipates the thermal energy from the welding process at about an equivalent rate as the second component.

Abstract: The invention relates to a method for assembling a stack (10) consisting of single or multilayered pre-products (1115) of equal or different sizes, said pre-products lying freely one on top of the other, wherein the stack (10) has two outer pre-products (11, 15). According to the method, the stack (10) is given a cohesion that facilitates later handling. The cohesion is achieved in a very simple and flexibly applicable manner by providing the slack (10) to be assembled in a first step, said stack consisting of pre-products (11-15) that lie freely one on top of the other, and by attaching at least one connecting element (17) to an edge (16) of the stack (10) in a second step such that said element overlaps the two outer pre-products (11, 15) of the stack (10) in a clamping manner.

Abstract: A method and apparatus for forming a sandwich structure is presented. A sandwich structure comprises a metallic core layer and a thermoplastic layer on a first side of the metallic core layer. The thermoplastic layer is consolidated against the first side of the metallic core layer.

Abstract: A flexible material for a flexible container can include a first laminate and a second laminate joined to at least a portion of the first laminate by at least one seal. The first laminate can include a first gas barrier layer disposed between first and second sealable layers, wherein the first and second sealable layers define opposed exterior layers of the first laminate. The second laminate can include a third sealable layer defining an exterior layer of the second laminate, and a second gas barrier layer. The at least one seal joins a portion of the third sealable layer to at least a portion of the second sealable layer.

Abstract: The invention relates to a layered product containing different types of plastic waste and process for preparing the same. Due to its toughness, weldability, insulation property and chemical resistance the layered product according to the invention is usable among others in construction industry, electric industry and chemical industry.

Abstract: In one aspect, a method of manufacturing a display device including: forming a preliminary resin layer of a liquid on the display panel; semi-hardening an edge of the preliminary resin layer; aligning a window on the preliminary resin layer; and fully hardening the entire preliminary resin layer to form a resin layer is provided.

Abstract: A method of making extensible web laminates comprising a multilayer film and at least one web layer and the use of such extensible web laminates in personal care articles. The method generally includes activating the multilayer film in a first direction by stretching at least a portion of the multilayer film past the elastic deformation limit of the skin layers and recovering the skin layers with the elastomeric core layer to produce a multilayer film that is elastic in the first direction. The activated multilayer film is subsequently stretched beyond the deformation limit of the skin layers in a second direction substantially perpendicular to the first direction. At least one web layer is applied to the multilayer film while in the stretched state. The multilayer film is then recovered to produce an extensible web laminate.

Abstract: A method of manufacturing a wheel guard may include injection-molding an adhesive layer, bonding an outer layer including a non-woven fabric and a sound-absorbing layer including thermoplastic resin with the adhesive layer in between, and forming the layers into a predetermined shape of the wheel guard, with the outer layer and the sound-absorbing layer bonded by the adhesive layer. The thickness of the outer layer may be 2 to 10 mm, the thickness of the adhesive layer may be 0.1 to 2 mm, and the thickness of the sound-absorbing layer may be 2 to 10 mm, before the bonding. A specific heat treatment layer may be formed on a non-adhesive side of the outer layer and may have an LM FIBER, a film, or a sheet.

Abstract: A bonding apparatus according to an exemplary embodiment of the present disclosure includes a first holding unit, a second holding unit, a pressing mechanism and a holding mechanism. The first holding unit is provided with a first heating mechanism and holds a first substrate. The second holding unit disposed facing the first holding unit and provided with a second heating mechanism, holds a second substrate. The pressing mechanism relatively moves the first holding unit and the second holding unit in order to contact and press the first substrate and the second substrate. The holding mechanism elastically holds an outer periphery of the first holding unit and the second holding unit.

Abstract: An apparatus and method for removing matrix material from a web of cut adhesive backed labels. A matrix stripping apparatus comprises a rotating cylinder for receiving a web of cut adhesive labels, a source for applying an electrostatic charge to the web of cut adhesive labels, and a separation member to facilitate separation of the matrix from a web comprising cut labels and a release liner. Applying an electrostatic charge to the web assists in holding the web against the rotating cylinder and relieves tension in the separation and removal of the matrix material.

Abstract: In one example, a web press includes a web press station (610) and a convertible buffer (600) near the web press station, the convertible buffer being configured to convert to a platform (630) for accessing the web press station. A method for performing web press maintenance is also disclosed.

Abstract: A 3 by 2 tabloid printing press includes a plate cylinder having a straight across lock-up and a blanket cylinder contacting the plate cylinder; a blanket cylinder printing a web; and a folder superstructure having at least one slitter for slitting the web into three ribbons and a folder for forming a tabloid newspaper from the three ribbons.

Abstract: One object is to provide a structure including a thin primer film formed by a dry process and tightly bound to a fluorine-containing silane coupling agent. In accordance with one aspect, a structure according to an embodiment of the present disclosure includes: a substrate; and a thin primer film containing at least one substance selected from the group consisting of silicon, titanium, aluminum, aluminum oxide, and zirconium and formed on a surface of the substrate by a dry process.