Abstract: Continuous compression molding process and apparatus for fabricating thermoplastic composite parts from pre-formed thermoplastic composite laminates with tooling dies have a staggered bevel feature at an entry side of the tooling dies. Staggering the length of the bevel feature in each section between bends in a surface contour along the width of the incoming edge of the tooling dies prevents excess material from being trapped and forming wrinkles in the finished thermoplastic part. The length of the taper in each section along the width of the tooling dies is aligned with a pulsed advancement distance of the pre-formed part.

Abstract: A structure with a substrate, and a fine-unevenness-structure layer provided to at least one surface of the substrate, wherein the fine-unevenness-structure layer is disposed at a surface of the structure, the indentation elastic modulus of the structure is 1-1300 MPa, and the ratio (??) of the rate of change of the coefficient of kinetic friction of the surface of the structure is 0.15-1.05, wherein ??=??f/??s: ??s represents the rate of change of the coefficient of kinetic friction of the surface of the structure at an initial-abrasion stage of a reciprocating abrasion test; and ??f represents the rate of change of the coefficient of kinetic friction of the surface of the structure immediately prior to the end of the reciprocating abrasion test. This structure exhibits excellent scratch resistance without compromising on the optical performance thereof, such as the antireflection performance.

Abstract: A bulk-density measuring device includes a first vessel in which contracted pre-expanded particles are swollen and recovered from contraction in a pressure-reduced state where a vessel internal pressure is lower than atmospheric pressure; a second vessel filled with the pre-expanded particles after being swollen in the first vessel in the pressure-reduced state where a vessel internal pressure is lower than the atmospheric pressure, and into which the pre-expanded particles of a constant volume are collected fractionally; a pressure-reducing unit that adjusts the vessel internal pressures of the first vessel and the second vessel to be lower than the atmospheric pressure; and a scale that measures a weight of the pre-expanded particles filled in the second vessel.

Abstract: A mold assembly includes a first mold portion defining a cavity having a first wall with an edge and a second mold portion defining a surface positionable at a predetermined distance from the edge. A lifter is positionable within the cavity and is spaced apart from the first wall and the surface, the lifter including a plurality of pins extending toward the first wall and aligned in a first direction generally parallel with the edge.

Abstract: The invention relates to a film body, a method for the back-injection molding of a film body and a back-injection molding tool therefor. In particular, the invention relates to a method for the back-injection molding of layer electrodes (1) for producing touch-sensitive sensors for example for touch screens. Parts of the layer electrode (1), which after the back-injection molding should still be able to move freely, are covered by a sacrificial film (3) before and during the back-injection molding.

Abstract: The present invention relates to a mold (1) for the hot overmolding of a composite insert (5). Said mold comprises two complementary mold halves (3A, 3B) forming at least one overmolding cavity (7), inside of which the composite insert (5) is intended to be extended. The overmolding cavity (7) comprises at least one ejector (9) arranged in the wall of one of the mold halves (3A, 3B). Said at least one ejector (9) is movable between a retracted position and a deployed position, where said at least one ejector (9) holds the composite insert (5) against the opposite wall of said overmolding cavity (7).

Abstract: Cooling apparatus having a cooling box with integrated cooling and attachment features providing end of arm tooling to demold and cool molded parts. There is provided a net fit between a porous tool nest portion of the cooling box and the molded part being manufactured to allow the cooling cycle time to be reduced as the molded part finishes the cooling cycle in the end of arm tooling while a mold is closed and starts making the next molded part. The cooling box is connected to at least one vacuum line having a vacuum unit to generate a vacuum allowing for part demolding and cooling. The fully assembled form fitting cooling box is 3D printable to effectively create a partially solid and partially microporous cooling box.

Abstract: The invention relates to a method for qualitatively and/or quantitatively classifying injection-molding tools in tool categories and determining preferred intervention ranges and/or manipulated variables for adapting injection-molding machine parameters in the case of changing ambient conditions and/or determining the influence of disturbing effects on the injection-molding process, comprising the following steps: a) providing an injection-molding machine having the injection-molding tool which is to be classified and which is intended for the determination, b) performing at least one injection-molding cycle with injection-molding machine settings in order to obtain a qualitatively adequate injection-molding part, c) determining a quotient Q=?p/?s or Q=?sn/?se characterizing the tool from c.1) a pressure rise ?p during the compression phase of the injection-molding cycle and the melt volume ?V displaced during the compression phase or c.

Abstract: An injection molding system comprised of: an injection machine having a barrel and a screw for injecting an injection fluid, a distribution manifold, a valve associated with a corresponding one of one or more downstream gates, a sensor adapted to sense and generate a signal indicative of pressure of the injection fluid in the barrel or an inlet that delivers injection fluid from the barrel to the manifold, and a controller receiving the signal generated from the sensor and including instructions that use the signal as a control value to adjust, during the course of an injection cycle, positioning or velocity of one or more of the valve pins.

Abstract: A plastic film is provided having one or more longitudinal bands with a thickness of 3 ?m-50 ?m thicker than the main portion of the film. Each thicker band is formed integral with the main portion of the film. Each band is in the form of a single ply. A method for producing the film includes that a molten polymer or polymer composition is extruded in a single ply and cooled, so that a film is formed. The polymer ply is cooled in one or more narrow areas before the main portion of the film is cooled. The narrow cooled areas correspond to the width and position of the thicker longitudinal band or bands. Some typical uses of the film include wrapping pallets and packaging agricultural produce.

Abstract: A method for producing a continuous filament from electrospun fibers includes providing a conducting collection surface that is an elongate three-dimensional surface. An attractive electric field gradient is formed between the collection surface and a source of electrically charged fibers. The collection surface is moved in a longitudinal direction relative to the source of electrically charged fibers. The fibers are collected on the collection surface so as to form a continuous filament.

Abstract: The present invention relates, on the one hand, to a method for forming a plastic sheet material (1). On the other hand, the present invention relates to a device (5) which is adapted to carry out such a method.

Abstract: Solid state draw a laminated polymer billet containing two or more polymer compositions laminated to one another to prepare an oriented polymer composition.

Abstract: Described are devices and containers that are scalable, modular, and lockable laterally and vertically with other like containers for a variety of applications. A container is formed by a wall attached at first end to a top end section with an opening and attached at a second end by a bottom end section. A container may have one or more of a tongue, formed on the wall, having and interconnecting mechanism to be received and interlocked by a groove. Vertical interconnectivity is accomplished with mechanisms to stack containers and prevent swivel using a ridge and channel interlocking arrangement.

Abstract: The blow molding device (1) is provided with a heating means (4) for heating a preform (P) to a temperature appropriate for molding, an antimicrobial agent-spraying means (50) for spraying an antimicrobial agent on the preform (P), a hot forming means for stretch blow molding the preform into a bottle (B), and an irradiation device (7) irradiating electromagnetic waves or ultrasonic waves on the bottle. After the heating means (4) has heated the preform (P), the anti-microbial agent-spraying means (50) sprays the anti-microbial agent and sterilizes the preform (P) with hot antimicrobial agent. During subsequent stretch blow molding of the preform (P), the hot forming means performs additional drying of antimicrobial agent retained on the preform (P) in the hot state and additional sterilization. The irradiation device (7) irradiates electromagnetic waves or ultrasonic waves to degrade the anti-microbial agent remaining on the molded bottle (B) and further promote antimicrobial agent drying and sterilization.

Abstract: A composite rod that has subsequently been reduced to its tow or whose supporting matrix has been modified by any of various means, including heat, can easily be redirected around an arc to manufacture a longitudinal structural element having a termination or support.

Abstract: Articles including nanoscale fibers aligned by mechanical stretching are provided. Methods for making composite materials comprising a network of aligned nanoscale fibers are also provided. The network of nanoscale fibers may be substantially devoid of a liquid, and may be a buckypaper. The network of nanoscale fibers also may be associated with a supporting medium.

Abstract: A roll of multilayer optical film is described. The roll includes a substantially uniaxially-oriented multilayer optical film, where at least one layer of the multilayer optical film has indices of refraction in a length direction and a thickness direction that are substantially the same, but substantially different from an index of refraction in a width direction.

Abstract: A method of increasing a width of a polymeric netting is disclosed. The method includes providing a polymeric netting having a length in a machine direction and running the polymeric netting in the machine direction onto a stretchable surface. The polymeric netting is in contact with the stretchable surface for a path length in the machine direction, and for at least a portion of the path length, the stretchable surface is stretching in the cross-machine direction. The traction between the polymeric netting and the stretchable surface during the stretching increases the width of at least a portion of the polymeric netting in the cross-machine direction.

Abstract: A sheet manufacturing device includes: a holder configured to hold a grown form of carbon nanotubes; a drawing unit configured to draw the carbon nanotubes from the grown form held by the holder; and a support unit configured to support the carbon nanotubes drawn by the drawing unit, the drawing unit including: a single drawing member configured to draw the carbon nanotubes; and a movable unit configured to move the drawing member, the drawing unit bringing the drawn carbon nanotubes to be supported by the support unit.

Abstract: Film articles with dual-sided structures are ones in which both of the major surfaces of the film have a structured surface. The structured film articles have a first major surface and second major surface, where each surface has a plurality of spaced apart protrusions forming a repeating pattern. Each repeating pattern has a major axis, where the major axis is one of the major axes in the translational direction of the repeating pattern. The major axis of the repeating pattern on the second major surface forms an oblique angle with the major axis on the first major surface, where the angle is in the range of 10-90% of the angle of rotational symmetry of the repeating pattern. The structured film is a unitary substrate. The structured film articles are prepared by providing a flowable material composition having two major surfaces and simultaneously contacting the major surfaces with a first microstructuring tool, and a second microstructuring tool.

Abstract: A storage electric sealer comprises a casing, a sealing module, a spring switch, a support cover, a press bar, and a sliding plate. The casing and the sealing module are arranged on the casing. The support cover includes at least two containing grooves. The press bar provided with a sliding chute is pivotally connected with the pivoting holder of the casing. The sliding plate is provided with a heat insulation block and at least a stopper, both lateral side of the sliding plate being connected with the sliding chute of the press bar in a sliding manner. Wherein, the sliding plate is located at a closed position in storage state, so that the stopper is accommodated in the containing groove of the support cover. As such, the storage electric sealer can be transformed into a storage state by a modified sliding mechanism to reduce the volume and damage rate effectively.

Abstract: A polar functional group is added onto a surface of a metallic member (1). A resin member (2) contains an adhesive functional group. The adhesive functional group and the polar functional group attract each other. A method for joining the metallic member (1) and the resin member (2) to each other includes a heating a junction between the metallic member (1) and the resin member (2) while pressing the metallic member (1) and the resin member (2) against each other with first load, maintaining temperature of the junction higher than melting temperature of a resin that structures the resin member (2) while pressing the metallic member (1) and the resin member (2) with each other with second load smaller than the first load, and cooling the junction to temperature lower than the melting temperature while pressing the metallic member and the resin member against each other with third load larger than the second load.

Abstract: The invention relates to a component (1) having a fastening region (2) for a threaded connection, wherein the component has a surface (3) having fiber material (5) embedded and integrated into a matrix (4) in at least one layer, wherein the fiber material has a fiber course substantially parallel to the surface, wherein the surface has a fastening opening (6) having a center axis (7) arranged at an angle to the surface and wherein the fastening opening is provided for an internal thread (8). In the region of the fastening opening, the fiber material lying parallel to the surface is deflected, starting from the surface, in such a way that the fiber course of the fiber material after the deflection is at an angle to the surface that approaches the direction of the center axis. Furthermore, a tube (9) is formed by means of the deflected fiber material. The invention further relates to a molded part and to a fastening part for such components.

Abstract: The present invention relates to a sealing band for a sealing jaw arrangement, comprising a contact surface and an opposite bottom surface, a first portion adjacent to the contact surface and a second portion adjacent to the bottom surface. The portions are separated by a waist, and said sealing band is symmetrical along a first axis that extends perpendicularly from a middle of the bottom surface, and the waist between the first portion and the second portion is located closer to the contact surface than to the bottom surface. The invention also relates to a counter jaw for holding the sealing band, and to a sealing jaw arrangement comprising such a counter jaw and a heating jaw.

Abstract: A method for fabricating three-dimensional structures. In-flight heating or UV illumination modifies the properties of aerosol droplets as they are jetted onto a target surface. The UV light at least partially cures photopolymer droplets, or alternatively causes droplets of solvent-based nanoparticle dispersions to rapidly dry in-flight, and the resulting increased viscosity of the aerosol droplets facilitates the formation of free standing three-dimensional structures. This 3D fabrication can be performed using a wide variety of photopolymer, nanoparticle dispersion, and composite materials. The resulting 3D shapes can be free standing, fabricated without supports, and can attain arbitrary shapes by manipulating the print nozzle relative to the target substrate.

Abstract: A method and system of producing a three-dimensional object with an anti-counterfeiting measure uses a processor to access a data file including a plurality of parameters for producing a three-dimensional object, wherein the parameters comprise a plurality of structural parameters. The processor may also cause a three dimensional printing device to form the three dimensional object that exhibits the structural parameters by identifying a build material, identifying a concealment material, causing the three dimensional printing device to deposit a mixture of the build material and the concealment material in a plurality of layers, and causing the three dimensional printing device to cure the build material and concealment material to form the three-dimensional object with the anti-counterfeiting measure.

Abstract: The present disclosure provides an interchangeable head for a fabrication system. The interchangeable head includes a fabrication module, a sheath for receiving and encasing the fabrication module a control system for controlling the fabrication module during fabrication of an object, and a coupling mechanism for securely attaching and detaching the interchangeable head to a carriage mounted to the fabrication system.

Abstract: A system for generating three dimensional objects that include an image, and methods for manufacturing and using same. Some embodiments include an elongated line for generating a three dimensional object via additive manufacturing having an image defined by a pixel array, where the line includes a plurality of discrete pixels disposed along the length of the line, the pixels configured to generate the pixel array. Other embodiments include an extruder system configured to extrude a line.

Abstract: Remote three-dimensional (3D) Continuous Liquid Interface Production (CLIP) systems are provided. The systems may include a plurality of 3D CLIP printers configured to fabricate 3D objects responsive to remote data corresponding the 3D objects. The plurality of 3D CLIP printers may be operatively coupled to a network by which the remote data is received by the plurality of 3D CLIP printers.

Abstract: Provided is a three-dimensional object formation apparatus including: a discharging unit which discharges a plurality achromatic colored liquids and a colorless transparent liquid; and a curing unit which cures a liquid discharged from the discharging unit to a formation table to form a plurality of voxels configuring a three-dimensional object on the formation table, in which a display color and transparency of the voxel are set, the discharging unit discharges the colored liquid by an amount of liquid according to the display color, and discharges the achromatic colored liquids and the colorless transparent liquid by an amount of the liquids at a ratio according to the transparency, so that a remaining portion which is other than a portion filled with the discharged colored liquid among total capacity of the voxel is filled, and the curing unit cures the discharged colored liquid and the transparent liquid to form the voxels.

Abstract: A system for generating three dimensional objects that include an image, and methods for manufacturing and using same. Some embodiments include an elongated line for generating a three dimensional object via additive manufacturing having an image defined by a pixel array, where the line includes a plurality of discrete pixels disposed along the length of the line, the pixels configured to generate the pixel array. Other embodiments include an extruder system configured to extrude a line.

Abstract: A method for manufacturing a seat cushion for a user is provided. The method comprises positioning the user on a test seat, scanning a plurality of pressure points of the user while the user is seated on the test seat, recording the plurality of pressure points to generate a pressure map, and manufacturing, using one of an additive manufacturing process, an additive manufactured tool and a molding process, the seat cushion conforming to the pressure map of the user.

Abstract: An additive manufacturing method comprises the steps of using an additive manufacturing technique to manufacture a product (10), at least part of which is supported by a support (12) formed integrally with the product (10) as part of the additive manufacturing technique, wherein the support (12) comprises a plurality of support beams (16) which, when finished, extend continuously to substantially interconnect the part with a support table (18), the beams (16) intersecting one another to form a lattice, and separating the support from the product, wherein the lattice is of irregular form.

Abstract: An ink composition for use as a support ink in three dimensional (3D) printing processes comprises a dispersion of solid particles in liquid carrier, compatible with an inkjet print head, wherein after removing the liquid carrier, the solid particles serve as support material for a Three Dimensional (3D) printed object, wherein the support material is separable from the 3D printed object.

Abstract: A sheet manufacturing apparatus includes a mixing unit that mixes fibers and a composite in the atmosphere, a forming unit that deposits and heats a mixture mixed by the mixing unit to form a sheet; in which the composite is resin particles with at least a portion of a surface coated by inorganic fine particles, and an absolute value of an average charging amount of the composite is 40 ?C/g or higher.

Abstract: A process for manufacturing a ceramic matrix composite component, said process comprising inserting at least one fibrous sheet into a resin transfer molding system. The process includes wetting the at least one fibrous sheet with a pre-ceramic polymer resin. The process includes applying a pressure to the at least one fibrous sheet and pre-ceramic polymer resin with an intensifier responsive to thermal expansion and curing the pre-ceramic polymer resin.

Abstract: A film-processing apparatus for manufacturing a film in a continuous process includes a continuous carrier belt; a film-casting zone depositing a cast film on the carrier belt; a shearing zone; an electric-field zone; a magnetic-field zone; an ultraviolet-radiation zone; an annealing zone; and a solvent-evaporation zone, wherein the continuous carrier belt is operable to move a cast film deposited thereon from the film-casting zone through the shearing zone, the electric-field zone, the magnetic-field zone, the ultraviolet-radiation zone, the annealing zone, and the solvent-evaporation zone such that the cast film is selectively treated in one or more of the zones in a continuous process. A pick up roll receives the cast film after the continuous carrier belt moves the cast film through the zones and is selectively treated.

Abstract: Methods and devices for altering the power of a lens, such as an intraocular lens, are disclosed. In one method, the lens comprises a polymer matrix containing photobleachable chromophores and a radical scavenger dispersed in the polymer matrix. In another method, a sensitizer is added to the lens. In yet another method, the lens comprises a chromophore that has a chromophore having at least two isomers. In yet another method, the lens comprises photobleachable multiphoton chromophores.

Abstract: A method of making eyewear includes molding procedures using different molding materials to produce the lenses and support structures in a sequence to permanently attach the lenses to the support structure. The lenses are formed with retaining elements to engage with the support structure.

Abstract: Intraocular implants and methods of making intraocular implants are provided. The intraocular implant can include a mask adapted to increase depth of focus. The method of manufacturing the implant can include positioning the mask with an aperture on a protruding pin of a positioning mold portion. The protruding pin can be configured to center the mask in the intraocular lens.

Abstract: The present invention relates to a method for manufacturing a polarizing plate, the method comprising the sequential steps of: preparing a polarizing element comprising a polyvinyl alcohol-based polarizer dyed with any one or more of iodine and a dichroic dye; irradiating the polarizing element with light having a specific wavelength selected from a wavelength range of 200 nm to 800 nm; and moistening the polarizing element, and to a polarizing plate manufactured by the method.

Abstract: A method of manufacturing an optical fiber of the invention includes: preparing one or more direction changers; drawing the bare optical fiber from an optical fiber preform; providing a coated layer on a periphery of the bare optical fiber; obtaining an optical fiber by curing the coated layer; changing the direction of the bare optical fiber at the position between the bare-optical-fiber formation position and the coated-layer provision position; detecting the position of the bare optical fiber in at least one of the direction changers; and adjusting the introduction flow rate of the fluid into the direction changer based on positional information obtained by the detection.

Abstract: Method for producing a plastic molded part (1), wherein, in the method, a mold insert (3) with a diffractive surface relief (32) is provided, the mold insert (3) is inserted into one mold half of an injection mold (5) which, together with at least one further mold half, forms a cavity for producing the plastic molded part (1), wherein the mold insert (3) is inserted into the injection mold (5) such that the diffractive surface relief (32) forms a partial area of the surface of the cavity formed by the mold half (5), and the plastic molded part (1) is molded by injection molding by means of the injection mold (5). The invention furthermore relates to a mold insert as well as an injection mold for such a method, as well as a plastic molded part produced in this way.

Abstract: A transfer assembly and a method for transferring tire components to a building drum, wherein the transfer assembly is provided with a first transfer drum including a circumferential surface and a cylindrical transfer drum volume, wherein the first transfer device further includes a first stitcher unit for stitching the first tire component when the first tire component has been transferred by the first transfer drum onto the building drum, wherein the first stitcher unit includes a stitching element for applying pressure to the first tire component and a stitcher deployment actuator for moving the stitching element with respect to the first transfer drum between a retracted position in which the stitching element is located within the transfer drum volume of the first transfer drum and an extended position in which the stitching element is located outside of the transfer drum volume.

Abstract: The invention relates to a method for picking up and placing a tire components, wherein the method includes the steps of picking up a supplied first tire component with a transfer drum, rotating the transfer drum in a first direction for winding a predetermined length of the continuous length of the first tire component, rotating the transfer drum in the opposite second direction, while at the same time moving the transfer drum downstream into a cutting position, wherein a part of the predetermined length of the first tire component is unwound from the transfer drum, cutting the unwound part, thereby obtaining a cut-to-length first tire component, and rotating the transfer drum again in the first direction for winding up the unwound part of the cut-to-length first tire component up to the trailing end.

Abstract: The present technology provides a pneumatic tire provided with a mechanical fastener member for attaching an object to the inner surface of a pneumatic tire, wherein the mechanical fastener member is bonded with high bonding strength to the inner circumferential surface of the tire, and a method of manufacturing the same. The pneumatic tire of the present technology comprises a mechanical fastener member on a tire inner surface, the mechanical fastener member corresponding to a first member of a mechanical fastener separable into two members and being fixed protruding to a tire cavity side. A fixing strength of the mechanical fastener member is from 0.1 to 100 (N/mm2).

Abstract: A carcass ply is built on a forming drum by application of a plurality of strip-like elements by the steps of: setting a width of these strip-like elements, setting a width of the overlapped part between two adjacent strip-like elements, setting a fitting diameter of the forming drum by calculating a corresponding extension of a radially external laying surface, and calculating a whole number of strip-like elements to be applied. The whole number of drip-like elements is applied by rotating the forming drum around a geometric rotation axis thereof, and applying pairs of strip-like elements by means of a first laying unit and a second laying unit located close to opposite portions of the forming drum relative to the geometric rotation axis.

Abstract: A method for increasing effective skid depth on a retreaded tire is provided along with a retreaded tire assembly. A kit for increasing effective skid depth of a retreaded tire is also provided.

Abstract: A method of manufacturing a fluid-filled chamber with a tensile element includes manufacturing a tensile element and incorporating the tensile element into a chamber. A first material layer, a second material layer, and a spacing structure having a plurality of support portions and a plurality of gaps may be stacked. The material layers may be located on either side of the spacing structure or on one side of the spacing structure. A strand may be stitched through the gaps to join the material layers and to form the tensile element. The spacing structure may be removed, and the first material layer may be spaced from the second material layer such that segments of the strand extend between the material layers. The tensile element may then be secured to opposite interior surfaces of an outer barrier, and the outer barrier may be pressurized to place the strand in tension.