Abstract: A heated aerosol-generating article for use with an aerosol-generating device is provided, the heated aerosol-generating article including a plurality of components including an aerosol-forming substrate assembled within a wrapper to form a rod having a mouth end and a distal end upstream from the mouth end, in which a rigid hollow tube having an external diameter of between 5 mm and 15 mm and a length of between 5 mm and 15 mm is disposed upstream from the aerosol-forming substrate within the wrapper, the rigid hollow tube being substantially non-flammable and in which a pierceable film spans one end of the rigid hollow tube.

Abstract: A support fixture is provided for forming a three dimensional article of manufacture onto a lower build surface thereof. The formation occurs in a resin vessel containing photocurable resin. The resin vessel includes a transparent sheet that forms a lower bound for the resin. The support fixture includes a lower planar portion, an upper portion, and a side wall coupling the lower planar portion to the upper portion. The lower planar portion defines a dense array of small openings that minimize a fluid drag of lateral resin motion when the lower build surface is proximate to the transparent sheet. The upper portion is for providing alignment and support within the three dimensional printing system. A plurality of large openings formed along the side wall that individually have a cross sectional area that is equal to a combined cross sectional area of a plurality of the small openings.

Abstract: A lamination molding apparatus, including a chamber covering a molding region; a powder layer forming apparatus to form a material powder layer by discharging the material powder onto the molding region and planarizing the material powder on the molding region; a laser beam emitter to emit a laser beam for sintering the material powder to form a sintered body; a cutting machine to cut the sintered body; a horizontal drive device to move both the cutting machine and the powder layer forming apparatus in a horizontal direction parallel to the molding region; a first vertical drive device to reciprocate the cutting machine in a vertical direction orthogonal to the horizontal direction; and a second vertical drive device to reciprocate the powder layer forming apparatus in the vertical direction, is provided.

Abstract: The present disclosure relates to an aerosol delivery device. The aerosol delivery device may include a first outer body, a second outer body, and a coupler defining a coupler inlet positioned between, and welded to, the first outer body and the second outer body. A sealing member may be engaged with the coupler, the sealing member including one or more penetrable portions, wherein the one or more penetrable portions of the sealing member are configured to be pierced with one or more electrical connectors such that the one or more electrical connectors extend through the sealing member from the coupler and seal against the sealing member. Related assembly methods are also provided.

Abstract: Printing devices and methods are provided that utilize high throughput extrusion to generate a printer material, such as a three-dimensional object. High-throughput extrusion systems as provided volumetrically pre-heat an extruded filament to a desired pre-heat temperature, and then either maintain or heat the extruded filament to a desired melt temperature prior to having the filament extruded out of the system and onto a surface, such as a build platform. By pre-heating the filament prior to heating it to the temperature at which it is excluded, it helps increase the throughput of the system. Likewise, by doing the heating volumetrically, it further helps increase the throughput of the system. Various embodiments of devices and methods typically used for printing in conjunction with the disclosed high throughput systems are also provided.

Abstract: In monitoring the machine space of a processing machine during the throughput of workpieces in order to detect workpieces that got stuck, the rear end of a workpiece with reference to the transport direction generates a start signal in the inlet region of the machine space, as well as an end signal in the outlet region thereof by sensors that are connected to a control unit. Beginning with the start signal, the control unit detects a feature that characterizes a theoretical feed travel and generates a release signal if the value of the detected characteristic feature has reached at the time, at which the end signal is generated, a predefined limiting value and not yet exceeded a predefined upper limiting value or if the end signal is generated at a time, at which the value of the detected characteristic feature has reached the predefined limiting value and not yet exceeded the upper limiting value.

Abstract: An inkjet forming method is provided and is a three-dimensional object forming method for forming a three-dimensional object in which a target object and a removable portion are integrally formed by vertically stacking a plurality of forming layers in a vertical direction. The inkjet forming method includes: forming the forming layer to include a target layer to be the target object after shaping and a removable layer to be the removable portion after shaping; with respect to the forming layers being vertically stacked in the vertical direction, forming the removable layer to be arranged at an outside of the target layer, and forming an outer contour of the removable layer disposed at a lower side outward than an outer contour of the removable layer disposed at an upper side; and during forming the forming layers, forming the target layer and the removable layer simultaneously with ink droplets ejected by an inkjet printing.

Abstract: An apparatus for fabricating a part, comprising a curved shaft; a build plate connected to the curved shaft; a motor; and a transmission connecting the motor and the curved shaft. The build plate moves along a curved path having a radius of curvature originating on an axis when the transmission transfers power from the motor to the curved shaft. Material deposited on the build plate along the curved path forms the part comprising a solid of revolution around the axis. In one or more examples, the part is an aircraft engine inlet.

Abstract: The present invention provides an improved root canal filling point/cone that can be manufactured precisely to result in better obturation with less micro-leakage. One aspect of the present invention is directed to a molded root canal filling point/cone. Another aspect of the present invention is directed to a thermo-pressure molding process for manufacturing root canal filing appliances (e.g., Gutta Percha points). Another aspect of the present invention is directed to the structure of the mold for undertaking thermo-injection molding. A further aspect of the present invention is directed to a production line comprising the thermo-injection process.

Abstract: Methods of manufacturing vehicle assemblies, such as engine assemblies, are provided. The method includes arranging at least a first component in a mold, arranging a second component or a second component precursor adjacent to the first component in the mold, introducing a sacrificial material into the mold, introducing at least one polymeric fluid into the mold, solidifying the polymeric fluid, and removing the sacrificial material from the mold to form a void space so that the first component, the polymeric composite material, and the void space define the vehicle assembly.

Abstract: The invention relates to a device for heating preform bodies or flat or preformed semi-finished products from thermoplastic material (3), comprising at least one base body (1.0, 2.0), on the surface of which at least a first layer or coating is formed, which comprises at least one electric heating resistor in the form of a flat, geometrically arranged conductor loop. The base body also has contact elements, by which the at least one heating resistor can be connected to a power source, wherein, as a result of the geometrically arranged conductor loop(s), a defined temperature profile can be generated, which can be transmitted contactlessly to the preform body or the semi-finished product by an outer contact layer formed on the first layer or coating, by contact the surface of a preform body or semi-finished product and/or by using convection or thermal radiation.

Abstract: A three-dimensional printing data generation device includes a storage storing data of a three-dimensional target object model, a support model generation processor generating, based on the data stored in the storage, data of a three-dimensional support model including a substrate portion located below the target object model and a handle portion extending upward from the substrate portion, the substrate portion including a through-hole larger than a particle diameter of a powder material, and an output processor outputting the data of the target object model and the data of the support model as three-dimensional printing data.

Abstract: A printing head for a printing system is disclosed. The printing head comprises a plurality of compartments, each having an outlet port for depositing liquid and an inlet port separately connectable to a separate liquid container. At least two compartments are in controllable fluid communication with each other, and the printing head comprises an arrangement of sensors configured for generating signals indicative of (i) a filling state of each compartment, and (ii) a fluid communication state between the at least two compartments.

Abstract: Process for continuous fabrication of highly aligned polymer films. A polymer-solvent solution is subjected to a high shear, high temperature, Couette flow to extrude a thin film having polymer chain disentanglement. The extruded thin film is frozen and the solvent is allowed to evaporate to form a dried film. The dried film is mechanically drawn using a constant force, adaptive-thickness drawing system to align polymer molecular chains through plastic deformation. A suitable polymer is ultra-high molecular weight polyethylene.

Abstract: A 3D printing device is provided, which includes a display panel including a plurality of pixels; a storage apparatus arranged in a light path of the display panel for storing a liquid light curable material, and a control component for controlling the display panel to perform imaging. The 3D printing device further includes a microlens array arranged in the light path between the display panel and the storage apparatus for adjusting the light path. The display panel further includes a light blocking matrix arranged at a non-pixel area of the display panel to separate the plurality of pixels from each other. The microlens array includes a plurality of microlenses arranged on the light blocking matrix, each microlens of the plurality of microlenses covers a single pixel of the plurality of pixels and light blocking layers of the light blocking matrix adjacent to the single pixel.

Abstract: The present invention relates to the use of a polymer comprising polymerized units (A) and (B): (A) at least one first monomer of the formula (I) where n is 3 to 12; m is 0 to 3; R1 is C1-C10-alkyl, C2-C10-alkenyl, aryl or aralkyl; R2, R3 and R4 are each, independently of one another, hydrogen, C1-C10-alkyl, C2-C10-alkenyl, aryl or aralkyl; and (B) at least one second monomer of the formula (II) where R5, R6 and R7 are each, independently of one another, hydrogen, C1-C10-alkyl, C2-C10-alkenyl, aryl or aralkyl; R8 is C1-C20-alkyl, C2-C10alkenyl, aryl or aralkyl; as a support material in a fused filament fabrication process.

Abstract: A slurry dispense system utilizes a buffer chamber to release the pressure from the supply pump, and buffer the irregular flow rate of the supply pump. It also utilizes a positive displacement pump to control the dispense flow. With the help of the buffer chamber, the positive displacement pump is able to provide a constant flow rate, and can be accurately controlled. A high resolution and a high speed can be achieved at the same time.

Abstract: A nozzle lifting assembly for an additive manufacturing system includes a base member and a lift member relatively movable with respect thereto, a first nozzle body arranged for being lifted by the lift member and a second nozzle body disposed on the base member. A wedge member is movably arranged relative to the base member and in wedging engagement with the lift member between a first and second wedge position, wherein the first and second wedge position correspond to a lowered position and a lifted position of the first nozzle body with respect to the second nozzle body, respectively.

Abstract: An injection molding cell management system includes a plurality of injection molding cell each having an injection molding machine, its peripheral device and an injection molding cell management unit and a host management unit. The injection molding cell management unit includes a worker identification information input unit, which accepts input of worker identification information for identifying a worker who performs input and/or operation of the injection molding machine and its peripheral device, and a prohibition state releasing unit which releases a prohibition state of the input and/or operation of the injection molding machine and its peripheral device, based on the worker identification.

Abstract: A method for producing a three-dimensional object by layer by layer solidifying of a material which is solidifiable under the action of radiation is provided. The method makes use of exposure masks. In order to form each object layer to be solidified of the object in a construction plane, there is generated at least one, preferably a single, digital exposure mask by means of which the radiation is selectively projected into the construction plane. For each exposure mask, according to the object layer to be solidified, a single 2-bit bitmap is calculated which assigns either the bit-value “transparent” or the bit-value “non-transparent” to each pixel of the exposure mask. In addition, an improved exposure mask generating apparatus and an improved device for producing a three-dimensional object are proposed.