Abstract: The present disclosure discloses a method for preparing a tensile specimen and a vibration curing device. The method includes obtaining a colloid mixture and putting it into a beaker and using a stirring device to stir the colloid mixture mixed evenly. The method further includes putting the colloid mixture into a vacuum dryer, and spraying a release agent on cleaned tensile specimen mold, and using a needle to inject the colloid mixture into a molding groove of the tensile specimen mold and filling the molding groove, fixing the pressing plate and the tensile specimen mold together to form a whole mold, fixing it on a vibration platform of a vibration device, turning on the vibration device to vibrate the whole mold and to heat the whole mold to a predetermined temperature, cooling the whole mold, and demolding the whole mold to obtain the tensile specimen of the structural adhesive.

Abstract: A three dimensional printing system includes a controller that is configured to (1) receive an incoming slice data array that defines an initial two dimensional object having an initial outer boundary; (2) process the incoming slice data array to define a simple outer boundary whereby if the object has two portions defining a channel therebetween, the channel is reduced or eliminated thereby reducing a perimeter of the outer boundary. In one embodiment the object is two objects. If the channel is defined between the two objects, then the processing merges the two objects. If the channel is a concave recess within one object, then the processing reduces the depth of or eliminates the concave recess.

Abstract: A method for forming a plurality of panels, which may comprise cutting a plurality of outer layers cutouts corresponding to a respective shape for each of the plurality of panels, applying indentation on foams of each of the plurality of panels, placing them in respective corresponding mold and applying pressure to each of the corresponding molds for thirty to forty seconds to form finalize panels. Method may further comprise forming a pre-finalized ball by attaching the plurality of the panels including the bladder valve panel to a bladder and respective edges to each of the plurality of the panels to respective edges of adjacent panels of the plurality of the panels, and placing the pre-finalized sports ball in a mold and applying heat to the pre-finalized sports ball.

Abstract: The present invention provides a receptacle molding apparatus, a receptacle and a receptacle molding method. The receptacle molding apparatus, which is for molding a receptacle by means of heat molding, comprises: a first mold portion comprising a body molding part, which is for molding a body of a receptacle, a skirt molding part, which extends upward from the body molding part so as to mold a skirt of the receptacle, and a flange molding part which extends in the direction from the upper end of the skirt molding part toward the outside so as to mold the lower surface of a flange of the receptacle; and a second mold portion which is provided above the first mold portion, can move vertically and enable pressure-molding of the upper surface of the flange, and has a pressing surface for pressing a sheet which is to be molded into the flange from above at a position corresponding to the flange molding part.

Abstract: [A] curable mixture configured to set in the presence of water, wherein the mixture comprises magnesium oxide, a primary cementitious component and at least one accelerant and at least one second accelerant, the at least one second accelerant is different than the at least one first accelerant, wherein a proportion by weight of the at least one second accelerant is equal to or less than 2% of a proportion of magnesium oxide by weight of the mixture. A proportion by weight of the primary cementitious component is 80% to 120% of a proportion of magnesium oxide by weight.

Abstract: An AM installation utilising SLM or SLS a chamber of a housing with a protective atmosphere, a support structure in the chamber defines an upper horizontal surface on which a laser source is operable for focusing onto predetermined regions of a build area of the plane of the horizontal surface. The laser beam source is operable so areas of each of successive layers of powder material are sintered or fully molten throughout its layer thickness. A dosing device raises successive quantities of powder to the level of the upper surface to enable a re-coater to form the layers. A separable build device unit defines build chamber opening at the upper surface, and includes a lift table and an electric drive by which the lift table is stepwise vertically adjustable so a progressively built component is lowerable into the build chamber.

Abstract: A suture-free coagulation-assisted fixed cardiac patch and fabrication method thereof are provided. The cardiac patch includes a polymeric procoagulant base and a barbed microneedle fixed on the polymeric procoagulant base, and a side surface of the polymeric procoagulant base with the microneedle has a microporous structure which does not penetrate the solid base of the polymer; an included angle ? between the microneedle and the plane where the polymeric procoagulant base located is 60-90°, and the microneedles are evenly distributed on the polymeric procoagulant base at a density of 5-50 threads/cm2; the barbs are located on the curved surface of the microneedle and are inclined toward the polymeric procoagulant base. The fabrication method includes using a mold pore-forming, a porogen pore-forming, or a thermally induced phase separation pore-forming, and combining the barbed microneedle while forming the microporous structure to obtain a suture-free coagulation-assisted fixed cardiac patch.

Abstract: A method for producing carbon foam boards from starch for use as an insulation material or a filter is disclosed. The method is suitable for producing fine-pored carbon foam boards having a mainly homogeneous structure. This is achieved by sprinkling at least one very thin layer of foamable starch powder onto a temperature-resistant boardlike substrate, introducing the starch-powder-coated substrate into a furnace, introducing air, argon or nitrogen into the furnace until an internal pressure of ?720 mbar to ?1000 mbar has been established, heating the furnace to a foaming temperature of 180° C.-450° C. to foam the starch powder, maintaining the temperature over a prolonged duration of up to 10 hours to stabilize the foamed starch into a foam board.

Abstract: Techniques to allow an additive fabrication device to dynamically adjust the size of a post metering volume for adjusting pressure of source material in the volume. These techniques may allow for greater control of material extrusion through an orifice and thereby mitigate or avoid issues of lag time between starting and/or stopping extrusion and/or in which there is unwanted emission of source material through the orifice. In some cases, techniques for adjusting the size of the post metering volume may include operating an actuator arranged in a channel that is coupled to the post metering volume. In some cases, techniques for adjusting the size of the post metering volume may include having a stator that is at least partially arranged within a chamber that defines the post metering volume and is free to move within the chamber.

Abstract: Apparatus, system and method having two hobs suitable to receive and extrude therebetween a print material filament for the additive manufacturing; a material guide suitable to receive the extruded print material filament; a heater element coupled to a transition point along the material guide distally from the at least two hobs, wherein the transition point comprises a partial liquefication of the print material within the material guide by the heater element to allow for printing of the partially liquefied print material; at least one peltier device at least partially about an upper aspect of the transition point and suitable to at least sink heat from the upper aspect of the transition point to thereby preclude partial liquefication of the print material above the upper aspect; and a print nozzle in fluid communication with the liquefied print material and suitable to print the liquefied print material.

Abstract: The present disclosure relates to a process for producing carbon fibers utilizing a salt of an organic cation containing C?N imine group, and carbon fibers produced by such process.

Abstract: A resin matrix composite used as anti-ablation coating material and its preparation method is provided. The resin matrix composite is a mixture of yttria-stabilized zirconia (YSZ), a resin, Cu, and SiO2. The mixture is uniform and include spherical particles or spherical aggregates. A method for preparing a resin matrix composite for anti-ablation coating includes mixing YSZ, a resin, Cu, and SiO2 to obtain a mixed powder and performing spray granulation of the mixed powder to obtain a resin matrix composite including spherical particles or spherical agglomerates.

Abstract: A method of making thermoplastic polymer particles may include mixing in an extruder a mixture comprising a thermoplastic polymer and a carrier fluid that is immiscible with the thermoplastic polymer at a temperature greater than a melting point or softening temperature of the thermoplastic polymer and at a shear rate sufficiently high to disperse the thermoplastic polymer in the carrier fluid; cooling the mixture to below the melting point or softening temperature of the thermoplastic polymer to form solidified particles comprising thermoplastic polymer particles having a circularity of 0.90 or greater and that comprise the thermoplastic polymer; and separating the solidified particles from the carrier fluid.

Abstract: A method for producing a plastic composite panel which is provided as a layer structure. The method includes providing a film layer structure comprising an adhesive layer which is arranged between two transparent plastic films. The film layer structure is pre-molded to assume an approximately final shape and is arranged in a molding tool so that a first main surface of the film layer structure is towards the molding surface of the molding tool and so that a cavity is formed between the second main surface of the film layer structure and a surface of the molding tool. The film layer structure is then back-molded in a thermal molding method step while introducing a thermoplastic material into the cavity to provide the layer structure. A pre-molding and back-molding step, a rigidification of the thermoplastic layer, and a demolding of the layer structure is further performed.

Abstract: A method for producing a three-dimensional preform from an intermediate preform blank (30, 70), which contain undulations (31) in a portion thereof. The preform blank (30, 79) may be formed on a tool surface (60) containing undulations (61) using an automated placement method such as Automated Tape Laying (ATL) or Automated Fiber Placement (AFP), in which narrow-width strips of material are dispensed side-by-side. Various preform blanks (30, 70) and molding tools (10, 50, 80) have been designed to produce shaped preforms having generally C-shape and Z-shape cross-sections.

Abstract: Provided is a method for producing a resin molded article, capable of reducing deterioration of resin during melt extrusion. The method includes passing a resin fed from a hopper for resin through a molding machine provided with the hopper, an extruder, and a pressure control device in this order, to produce a resin molded article, the resin pressure between a tip of the extruder and an inlet port for resin of the pressure control device being 15.0 MPa or lower.

Abstract: The present invention provides an imprint apparatus that forms a pattern of an imprint material on a substrate using a mold, the apparatus comprising: a supplier configured to supply the imprint material as a plurality of droplets onto the substrate; and a controller configured to control the supplier based on information indicating a target arrangement of the imprint material to be supplied as the plurality of droplets onto a predetermined region of the substrate, wherein the plurality of droplets in the target arrangement include a first droplet group including a plurality of first droplet arrays, a second droplet group including a plurality of second droplet arrays, and a third droplet array.

Abstract: A drape forming apparatus includes a forming tool having a first forming surface and a second forming surface nonplanar with the first forming surface. A tray is spaced apart from the forming tool and is configured to pivot about a hinged end from a first position to a second position under an applied force such that a distal end moves away from the forming tool. A first side of the tray faces a first heat source when the tray is in the first position, and a second heat source is disposed at a second side of the tray. A device for use in forming the composite structure includes a standoff and the tray, and a heat source is secured to the second side of the tray. A method of forming a composite structure includes heating both sides of the composite material with the first and second heat sources.

Abstract: A dough portioning device comprises a metering device with a container configured to receive a supply of dough, and a separator configured to separate a defined quantity of dough from the supply of dough and to discharge the quantity of dough at a discharge end of the metering device in a discharge direction. The dough portioning device furthermore comprises a conveyor device configured to transport dough in a conveying direction, wherein the conveyor device comprises a conveyor belt, and is arranged below the discharge end of the metering device. The conveyor device furthermore comprises a belt guide configured to bend/fold lateral sections of the conveyor belt relative to a middle section in a direction towards the metering device. The middle section of the conveyor belt has a declivity relative to the discharge end of the metering device, at least in a section in the region of the metering device.

Abstract: A method for rejuvenating a strand-blocked cable having a conductor comprised of a plurality of conductor strands with interstitial volume therebetween blocked by a PIB based mastic, the conductor being surrounded by a polymeric cable insulation. The method comprising installing injection adapters that seal the cable ends of the cable and are usable to inject fluid into the interstitial volume between the conductor strands of the cable; elastically expanding the polymeric cable insulation through the application of pressure to the interstitial volume between the conductor strands of the cable; and injecting at least one injection fluid in which the PIB based mastic is mostly insoluble into the interstitial volume between the conductor strands of the cable.