Abstract: The present disclosure provides an injection molding apparatus and a method of fabricating a component. The apparatus may include a barrel comprising a first section having an end associated with a mold through a nozzle or a gate insert, a second section coupled to a hopper configured to fill a material into the barrel, and a temperature transition section between the first section and second section. The apparatus may include an extrusion screw placed inside the barrel and rotatable relative to the barrel. The apparatus may include one or more heaters associated with the first section of the barrel to heat the material inside the barrel. Rotation of the extrusion screw relative to the barrel may continuously extrude the material into the mold.

Abstract: An injecting machine for two different liquid material includes an injection cylinder having a nozzle disposed on a distal end thereof. A plunger is reciprocally received in the injection cylinder for undergoing reciprocating movement between an advanced position and a retracted position, with the plunger injecting a liquid mixture of the two different liquid materials as the plunger moves to the advanced position. A moving mechanism causes the plunger to reciprocate between the advanced position and the retracted position. A mixing mechanism is disposed on the injection cylinder for mixing the two different liquid materials together to feed the liquid mixture into the injection cylinder. A support plate supports a proximal portion of the injection cylinder. The mixing mechanism is supported in its entirety by the injection cylinder.

Abstract: Wings are provided on mold components and linear ways are provided below these wings. A pad rides on each linear way below each wing. A force generator, such as a spring, is disposed between each wing and underlying pad. In this way the weight of the mold components is borne, at least in part, by the linear ways so that the weight on components that might otherwise sag is lessened.

Abstract: Components may be manufactured by co-extruding a polymer filament and a fiber filament from a nozzle. The polymer filament and the fiber filament may be heated within the nozzle, which may couple the polymer filament to the fiber filament. The co-extruded filament may result in long reinforcing fibers which provide strength to the components.

Abstract: An apparatus for the production of electrospun fibers using an electrospinning solution comprising: at least one threaded rod having an exterior surface and having a longitudinal axis oriented vertically, a grounded collector, an electrospinning solution dispenser feeding electrospinning solution to the exterior surface of the threaded rod, and a high voltage power supply.

Abstract: A fiber reinforced polymer part is fabricated by rastering a deposition head over a substrate, and additively forming part features by extruding a polymer having an entrained continuous reinforcement from the deposition head onto a substrate.

Abstract: An extrusion die is provided with an adjustable end seal assembly. The extrusion die includes a die body, and the adjustable end seal assembly includes an end seal device and a wedge mechanism. The adjustable end seal assembly has an engaged configuration and a disengaged configuration. When in the engaged configuration, the adjustable end seal assembly is held forcibly against the die body. When in the disengaged configuration, the adjustable end seal assembly is either spaced apart from the die body or held against the die body with less force than when in the engaged configuration. Methods of operating such an extrusion die are also provided.

Abstract: An apparatus for the fabrication of a container (300), comprising a mold defining the form of said container (300) and configured to accommodate a substantially tubular preform, an injection head (115) configured to interface with the preform and establish fluid communication with a cavity thereof; an injection valve (202) configured to selectively permit fluid communication through said injection head (115), and a stretching rod (117) slideably disposed within the injection head (115); said apparatus (100) further comprising a displacement plunger (209) being disposed coaxially about and mobile relative to said stretching rod (117) between a retracted position substantially within the injection head (115) and an extended position wherein said displacement plunger (209) projects at least partially from said injection head (115).

Abstract: A formulation for producing a polymeric material including polypropylene, a chemical blowing agent, and optional components as described.

Abstract: A thermoforming device is described. It relates to a mold assembly including a first and second mold, and to a mold that can be used in a thermoforming device. It also relates to a method for thermoforming a product. The thermoforming device is characterized in that the thermoforming device comprises a second pre-stretcher, in addition to a first pre-stretcher and a calibration element, and that the second pre-stretcher is at least partially and moveably arranged in a second mold body. A movement relative to the second mold body and towards the same forming cavity of the first pre-stretcher, the second pre-stretcher, and the calibration element, can be individually controlled, and the second pre-stretcher at least partially surrounds the first pre-stretcher and the calibration element.

Abstract: A vacuum forming apparatus includes a die set including an upper die and a lower die. The upper die is configured to move in a horizontal direction from a normal position at which the upper die is initially set. The lower die includes a suction channel through which a vacuum is applied to a cover. The lower die is opposite the upper die that is at the normal position. The upper die is configured to move from the normal position to a space lateral to the lower die so as not to face the lower die after the die set is opened, and return to the normal position before the die set is closed. The lower die is configured to move downward during opening of the die set and upward during closing thereof. The die set is configured to form the base member with the cover into a predetermined shape.

Abstract: The present invention concerns a system and method for fabricating a three-dimensional object. A build platform is provided that defines a build area and includes a print bed within the build area. Also provided is an extruder that extrudes build material. An ejector having at least one arm that has at least two opposing ends is used to remove the printed object. The first end of the ejector is adapted to travel in a vertical direction and the second end is adapted to travel in a horizontal direction. A scraper portion extends horizontally, parallel to the print bed from a retracted position to an extended position when the first end travels in a vertical direction towards the print bed.

Abstract: There is provided improved laser sintering systems that increase the powder density and reduce anomalies of the powder layers that are sintered, that measure the laser power within the build chamber for automatic calibration during a build process, that deposit powder into the build chamber through a chute to minimize dusting, and that scrubs the air and cools the radiant heaters with recirculated scrubbed air. The improvements enable the laser sintering systems to make parts that are of higher and more consistent quality, precision, and strength, while enabling the user of the laser sintering systems to reuse greater proportions of previously used but unsintered powder.

Abstract: The invention relates to a method for producing a transverse sealing seam in a tubular bag (6) having a longitudinal sealing seam (5), wherein the tubular bag (6) is passed through between a sonotrode (1) and an anvil (2) and, in order to produce the transverse sealing seam, the sonotrode (1) and the anvil (2) are moved toward each other so that a welding force is applied to the tubular bag (6). In order to provide a method and transverse sealing device with which the stated disadvantages can be overcome at least reduced, the longitudinal sealing seam (5) is moved through a gap (8, 7?) formed in the sonotrode (1) or the counter tool (2) at least during the application of the welding force.

Abstract: A polymer scaffold is crimped to a balloon while the polymer material is in a thermodynamically unstable state, or a transient state including crimping shortly after a tube or scaffold processing step that imparts memory to the material, or shortly after rejuvenation of the scaffold.

Abstract: A three-dimensional modeling apparatus is provided with a head unit for modeling an object by discharging a liquid into each unit grille and a control unit for controlling the head unit. The control unit controls the head unit so as to discharge a designated type of colored liquid into a first unit grille out of two unit grilles adjacent to each other in a direction from a surface of the object to the interior, and discharge, into a second unit grille, one or more types of colored liquids that includes at least one colored liquid of the same type as the colored liquid discharged into the first unit grille, so as to be able to express a color of the surface of the object using the colored liquid discharged into the first unit grille and the one or more colored liquids discharged into the second unit grille.

Abstract: Method and apparatus for producing a large three-dimensional work piece. In a method for producing a three-dimensional work piece, a layer of raw material powder is applied onto a carrier (16) accommodated within a process chamber (12) by means of a powder application device (14), wherein a plurality of irradiation areas (18a, 18b, 18c, 18d) is defined on a surface of the carrier (16). Electromagnetic or particle radiation is selectively irradiated onto the raw material powder applied onto the carrier (16) by means of an irradiation system (20), the irradiation system (20) comprising a plurality of irradiation units (22), each irradiation unit (22) being associated with one of the irradiation areas (18a, 18b, 18c, 18d) defined on the surface of the carrier (16) and being configured to selectively irradiate electromagnetic or particle radiation onto the raw material powder applied onto the associated irradiation area (18a, 18b, 18c, 18d).

Abstract: A method and system for transcatheter aortic valve implantation (TAVI) planning is disclosed. An anatomical surface model of the aortic valve is estimated from medical image data of a patient. Calcified lesions within the aortic valve are segmented in the medical image data. A combined volumetric model of the aortic valve and calcified lesions is generated. A 3D printed model of the heart valve and calcified lesions is created using a 3D printer. Different implant device types and sizes can be placed into the 3D printed model of the aortic valve and calcified lesions to select an implant device type and size for the patient for a TAVI procedure. The method can be similarly applied to other heart valves for any type of heart valve intervention planning.

Abstract: Three-dimensional printer fabrication is improved receiving a digital model of an object, the digital model specifying two or more different build materials; prioritizing the two or more different build materials with a ranking; identifying exclusive locations in the plurality of layers where a surface layer of the object has one of the two or more different build materials; generating an external structure for the object according to one or more design rules; matching a first build material of the external structure to a second build material of the object at each of the exclusive locations; and generating tool instructions for fabricating the object and the external structure using at least the first build material and the second build material.

Abstract: A powder recycling machine includes a casing, a powder collector, a dust-sucking system and a dust-removing system. An accommodation space within the casing is divided into a first space and a second space by a partition plate. The powder collector is disposed within the first space for collecting excess powder from the first space. The dust-sucking system includes a connector, a cyclone separator and a first suction device. The connector, the cyclone separator, the first suction device and the powder collector are sequentially in communication with each other through plural transmission ducts. The dust-removing system includes a second suction device. The first space, the second suction device and the powder collector are sequentially in communication with each other through plural guiding ducts. After the excess powder suspended in the first space is introduced into the dust-removing system, the excess powder is transferred to the powder collector.

Abstract: An endless-belt shaped heating element is produced by: dispersing annealed stainless-steel fibers in the heat-resistant resin or a precursor thereof; and, producing a molded article of the heat-resistant resin in which the annealed stainless-steel fibers are dispersed.

Abstract: Yarns for use in manufacture of composite structures are intermittently coated with adhesive, and may be twisted as well. These yarns are then woven into fabric, and heat and pressure applied to the intermittently-coated yarns to provide dimensional stability and to prevent unravelling of the fabric during cutting and handling. The fabric is then disposed in a mold or over a mandrel, and a curable resin applied and caused to cure. Provision of the adhesive in intermittent fashion limits propagation of cracks that may form at the location of the adhesive, which does not bond well to the curable resin.

Abstract: An assembly and method for infusing composite material with liquid resin to form a composite part with a smooth outer mold line (OML) surface and a complex inner mold line (IML) surface. The method may include placing a flow media into a deepest tier of a two-tiered recess in a rigid tool, placing a perforated caul sheet into a shallowest tier of the two-tiered recess, and placing uninfused composite material over the perforated caul sheet. Next, the method may include placing an impermeable membrane over the composite material and sealing the impermeable membrane to the rigid tool. Finally, the method may include vacuuming air from a vacuum port of the impermeable membrane to compress the impermeable membrane toward the composite material and the rigid tool, thus pull liquid resin from a resin reservoir, through the flow media, through the perforations of the caul sheet, and throughout the composite material.

Abstract: In accordance with the present disclosure, there is provided a method for producing an interior trim part. The method includes introducing a planar heating element into a cavity of a mold tool. The planar heating element has a first planar side facing away from a visible side of the interior trim part and a second planar side opposite to the first planar side, the mold tool has a plurality of protrusions protruding into the cavity, and the first planar side is seated on at least a portion of the plurality of protrusions. The method further includes adding a foam material into the cavity to cover the planar heating element, such that a foam layer is formed on both the first and second planar sides.

Abstract: A method for manufacturing an optical film includes molding a sheet-shaped rubber-containing thermoplastic resin composition discharged in a molten state from a die outlet of an extruder by inserting the composition between a pair of smoothing rollers including an elastic roller, wherein a melt viscosity ? of the rubber-containing thermoplastic resin composition as measured at a temperature of the rubber-containing thermoplastic resin composition during the discharge from a die and a shear velocity of 122 sec?1 is 600 Pa·sec or more but 2000 Pa·sec or less; a surface temperature of the elastic roller is Tg?70° C. or higher but Tg?20° C. or lower; and ?×V/P is 5000 or less, wherein V represents a line velocity (m/min) and P represents a pressure applied by the elastic roller (kgf/cm).

Abstract: The purpose of the present invention is to efficiently vulcanize a green tire. This tire vulcanizing method and tire manufacturing method for vulcanizing a green tire 2A formed on an outer surface 11s of a rigid core by putting in a vulcanizing mold together with the rigid core 3A. The method comprising: a preheating step S1 of preheating the rigid core accompanied by green tire 3A using a preheating device 5 arranged adjacent to the vulcanizing mold 4 prior to vulcanizing; a vulcanizing step S3 of vulcanizing the green tire accompanied by preheated rigid core 3A using the vulcanizing mold 4; and a cooling step S5 of cooling the rigid core accompanied by vulcanized tire 3B which has a vulcanized tire 2B made by vulcanizing the green tire 2A by use of a cooling device 6.

Abstract: A tire building method comprising: feeding an elastomer strip in a feed direction towards a building drum by means of a first and a second feed conveyor arranged in succession; cyclically determining the transverse position of both sides of the elastomer strip in a centring direction perpendicular to the feed direction; calculating an average head out of center on a head portion of the elastomer strip; and moving the second feed conveyor transversely in the centring direction by an amount equal to the average head out of center, before winding the elastomer strip around the building drum.

Abstract: A tire with a circumferential reinforcement layer formed by spirally winding rubber strips in the same direction from different positions arranged in the width direction of the tire. The rubber strips (12A and 12B) are arranged with spaces in a part or the entirety of the tire in the width direction; among those end portions of the rubber strips, at least medial end portions (12Bs and 12Ae) that are located on the equatorial plane side of the tire are arranged at positions where the medial end portions completely overlap with rib-form land portions (2a) in the width direction of the tire; and the width of the rib-form land portions overlapping with the medial end portions is defined as W and the width of the rubber strips is defined as G, wherein a relationship G<W is satisfied.

Abstract: In a rubber-coated fabric, a plurality of warp cords is included with a spacing d between, sides of adjacent warp cords, each of the warp cords being coated with a layer of rubber compound, A cut line may further be included that separates groups of the warp cords, each group having a predetermined number of the warp cords. The cut line, may be formed by between 2 and 6 adjacent cut line warp cords, wherein a distance dc, between any two sides of adjacent cut Hue warp cords may be no more than. 50% of d. The layer of rubber compound that coats- the rubber-coated fabric is thin enough to outline the cut line on a surface of the rubber-coated woven fabric.

Abstract: A method and system for manufacturing a tire tread with lugs, the tread having a tread base, and a number of lugs projecting upwards from the tread base; the method having the steps of: preparing a green-rubber blank tread of constant thickness; applying rubber blocks to the areas of the blank tread where the lugs are to be formed, each block varying lengthwise in cross section, so it is thinner at the center and thicker at the side; and curing the blank tread, together with the blocks, in a curing mold negatively reproducing the pattern of the tread.

Abstract: A method of manufacturing a sole assembly includes using a jig with a first mold assembly to distribute pellets a first material into a recess of a first mold member of the first mold assembly. A second material is injected into the first mold assembly, and the first mold assembly is heated to form a first preform. The first preform and a second preform are heated in a second mold assembly to form a sole assembly with a camouflage appearance around only a periphery of the sole assembly.

Abstract: A method of forming a decorated midsole element for articles of footwear includes obtaining a decorated film having one or more graphic elements applied to a first surface of the film and placing the decorated film in a mold. A midsole element is obtained and placed in the mold, and pressure is applied to the mold to form a midsole element having a decorated surface. The decorated film may include a layer of polyether-block co-polyamide polymer and the midsole element may be formed of ethylvinylacetate. A midsole assembly and an article of footwear having decorated midsole top layers are also described.

Abstract: A process for realizing blanks for the manufacture of boxes to measure, characterized in that it includes the following stages: —collecting at least a sheet of packing material from at least a store; —transferring it to a cutting station in which the sheet itself is cut so that a plurality of pieces is obtained therefrom, which plurality of pieces exhibits a common dimension and other dimensions which are different from one another according to predetermined ratios; —collecting the pieces, according to the dimensions of the box to be formed, in order to cut them into the predetermined dimensions, after joining, when necessary, one or more of said dimensionally homogeneous pieces so as to form a piece that is longer than the one available and suitable for constituting the “bottom” piece, which includes the bottom and at least two first opposite lateral walls of the box to be formed; cutting to measure said pieces and subjecting them singly to a first and a second marking in order to obtain weakened or folding

Abstract: An embossing/debossing system and method for embossing or debossing an impressionable material, such as paper. The system may comprise a laser cutting apparatus and a stamping apparatus. The laser cutting apparatus may comprise a laser configured for cutting and/or ablating one or more patterns into a stencil material. The stamping apparatus may be configured to receive the stencil material from the laser cutting apparatus and may have an actuatable elastomeric press pad configured to press the impressionable material into the patterns formed in the stencil material by the laser cutting apparatus. The system may also comprise various feeding devices configured to feed the stencil material from the laser cutting apparatus to the stamping apparatus and/or configured to feed the impressionable material through the stamping apparatus.

Abstract: A device for compacting a contoured elongate composite layup includes flexible first and second fiber reinforced resin flexible sections flexible along their lengths. The first section is flexible within a first plane and the second section is flexible within the first plane as well as within a second plane. The second section includes flexible joints reinforced by a spine.

Abstract: The invention relates generally to carrier materials. More specifically, the present invention relates to silicon-free thermoplastic elastomer (TPE) materials for use in carrier devices. In some embodiments, a textured film to temporarily immobilize a device is provided, characterized in that a surface of the film in contact with the one or more objects is comprised of textured topology.

Abstract: According to one implementation, a composite material structure includes a first member and a second member. The first member has at least one first bonded surface. The second member has at least one second bonded surface to be bonded to the at least one first bonded surface. The second member is made of a composite material. At least one surface formed by fibers forming the composite material is used as the at least one second bonded surface by disposing end portions of the fibers, in the first member side, inside the composite material.

Abstract: The invention concerns a process for preparing a ribbon of reinforcement strands or filaments associated on each of its faces with a polymeric binder, said ribbon having a given width substantially constant over its entire length, in which the strands or filaments extend in a direction parallel to the length of the ribbon, wherein it comprises the following steps: a) adjustment of the ribbon width to the desired width thanks to a dimensioning device, b) association of the ribbon on each of its faces with a polymeric binder allowing the assurance of a homogenous cohesion of the ribbon, such that the total weight of the binder does not exceed 25% of the total weight of the obtained ribbon, as well as the ribbons obtainable by such a process.

Abstract: Adhering systems for magnetizable laminates to assist preventing delamination of magnetizable laminates exposed to direct sunlight; and, relating to preventing fouling of cutting blades during cutting of magnetizable laminates.

Abstract: There is provided insulating paper for oil-immersed motors used in an oil-immersed motor in a state where folding is applied to the paper, the motor operating in a state where it is immersed in a cooling oil, the paper including a polyester film and heat resistant sheets made from aromatic polyamide laminated to both front and back surfaces of the polyester film, the polyester film and the heat resistant sheets being bonded with an acrylic adhesive, wherein the acrylic adhesive contains polyisocyanate and a polybutyl acrylate having a weight average molecular weight of 400,000 or more in a proportion of the polyisocyanate of more than 3 parts by weight and 20 parts by weight or less based on 100 parts by weight of the polybutyl acrylate.

Abstract: A bonding structure and a method of fabricating the same are provided. A first substrate having a first bonding element and a second substrate having a second bonding element are provided, wherein at least one of the first bonding element and the second bonding element is formed with an alloy. A bonding process is performed to bond the first bonding element with the second bonding element, wherein a diffusion liner is generated at the exposed, non-bonded surface of the bonding structure.

Abstract: An article and a method for making shaped cooling holes in an article are provided. The method includes the steps of providing a metal alloy powder; forming an initial layer with the metal alloy powder, the initial layer having a preselected thickness and a preselected shape, the preselected shape including at least one aperture; sequentially forming an additional layer over the initial layer with the metal alloy powder, the additional layer having a second preselected thickness and a second preselected shape, the second preselected shape including at least one aperture corresponding to the at least one aperture in the initial layer; and joining the additional layer to the initial layer, forming a structure having a predetermined thickness, a predetermined shape, and at least one aperture having a predetermined profile. The structure is attached to a substrate to make the article.

Abstract: Coatings for substrates, such as superalloy substrates, are provided. The coating can include: 15 wt % to 45 wt % cobalt; 20 wt % to 40 wt % chromium; 2 wt % to 15 wt % aluminum; 0.1 wt % to 1 wt % yttrium; and nickel. The coatings may include nickel, cobalt, chromium and aluminum, and other optional additives to improve oxidation and corrosion resistance of the substrate without significant debit to its mechanical properties.

Abstract: A glass roll reliably prevents a glass film from breaking from an end surface of the glass film as an origin of breakage. The glass roll is formed by winding the glass film into a roll while superposing the glass film on a protective sheet. The glass film is formed by an overflow downdraw method to have a thickness of 1 ?m or more and 200 ?m or less, and has each end surface in a width direction formed as a cut surface cut by laser splitting.

Abstract: A method of cold forming a glass laminate structure. The method includes assembling a multi-layer structure having two buffer plates and a glass laminate structure intermediate the two buffer plates, wherein one or both of the two buffer plates includes a pattern formed thereon or therein or the multi-layer structure includes non-deformable materials forming a pattern. The method further includes cold forming the glass laminate structure in the autoclave by heating the assembled structure to a temperature about 5 to 10 degrees above the softening point of the polymer interlayer for a predetermined period of time at a predetermined pressure. After processing the glass laminate structure can be removed from between the buffer plates wherein the pattern formed in or on the one or both buffer plates or non-deformable materials has been transferred to the glass laminate structure as a function of variances of thicknesses in the glass laminate structure.

Abstract: A method for forming a CMC article is disclosed, including forming a CMC precursor ply assembly. Forming the CMC precursor ply assembly includes laying up a plurality of CMC precursor plies and entraining a melt infiltration agent to form an entrained agent supply. Each of the plurality of CMC precursor plies includes a matrix precursor and a plurality of ceramic fibers. The plurality of CMC precursor plies and the entrained agent supply are arranged to form the CMC precursor ply assembly, which includes an article conformation. The method further includes carbonizing the CMC precursor ply assembly, infusing the melt infiltration agent from the entrained agent supply into the plurality of CMC precursor plies, and densifying the CMC precursor ply assembly with the melt infiltration agent to form the CMC article.

Abstract: The present invention relates to a vacuum insulation board (1) comprising: a hermetically closed covering (3) in which the pressure is lower than atmospheric pressure, a core material (5) made of organic aerogel placed inside said covering (3), said organic aerogel being based on a resin resulting at least in part from polyhydroxybenzene(s) R and formaldehyde(s) F, said organic aerogel being a polymeric monolithic organic gel comprising at least one water-soluble cationic polyelectrolyte, or said organic aerogel being a pyrolysate of said gel in the form of a porous carbon monolith comprising the product of the pyrolysis of said at least one water-soluble cationic polyelectrolyte P, said organic aerogel exhibiting a specific thermal conductivity of between 10 and 40 mW·m?1·K?1 at atmospheric pressure.

Abstract: This document discusses, among other things, a microelectronic system including a mold compound having a base layer and a surface layer on the base layer, and a seed layer deposited on the surface layer of the mold compound. The mold compound includes a monomer epoxy resin, a hardener, a filler material, and a polymer interphase material, wherein the polymer interphase material forms the surface layer of the mold compound having an adhesion strength to the seed layer greater than the monomer epoxy resin and hardener alone.

Abstract: Multiple layer interlayers comprising pairs of alternating polymer layers are provided, along with methods of making and using the same. Multiple layer interlayers according to embodiments of the present invention may include more than three polymer layers and may exhibit desirable acoustic and optical properties, which may make them suitable for use in various types of multiple layer panels, including safety glass for automotive and architectural applications.

Abstract: A polyester film made from two kinds of polyester resins and having a specific DSC (and a specific glass transition point) is provided, (i) which is superior in mechanical property, capable of thermocompression bonding with a metal sheet, despite a high degree of crystallization of the film, reduces quality change of plastic film laminated on the metal sheet even if faced with variation of conditions of thermocompression bonding with the metal sheet, and which is capable of thermocompression bonding even at a relatively low temperature, (ii) which is superior in formability, (iii) which is superior in flavoring property and impact resistance, and which obliterates occurrence of whitening or delamination of the film, or microcracks on the film, even if the film in the metal laminated sheet obtained by thermocompression bonding of the film on the metal sheet or on the surface of a metal can obtained by subjecting the metal laminated sheet to various form processings is crystallized, and (iv) which satisfies pro