Abstract: A method of controlling a slot die comprises positioning actuators of the slot die with a controller according to a first set of discrete settings, operating the slot die by passing an extrudate through the fluid flow path and out the applicator slot with the actuators positioned according to the first set of discrete settings, and while passing the extrudate through the fluid flow path and out the applicator slot, changing the positions of the actuators with the controller to create patterned features in the extrudate.

Abstract: A method and apparatus provided for the production of fine fibers by electrospinning fibers by applying an electrical field between a primary electrode and a counter electrode (5) spaced apart from the primary electrode and extending generally parallel thereto wherein at least an operative surface of the primary electrode is coated with a polymer solution (3) and an electric field of sufficient magnitude is generated between the primary electrode and counter electrode to cause the formation of fine fibers (9) in the space between the electrodes. The operative surface of the primary electrode that is coated with polymer solution is made up of appropriate portions of the surfaces of a multitude of operatively semi-submerged, loose (unattached) elements (1, 11, 17, 21) supported on the bottom of a trough (2) or tray or another support member or members (12, 18, 22).

Abstract: The lining for a mold for vulcanizing a tire, comprises at least one network of cords and of sipe blades for molding a corresponding network of grooves and of cuts in the tread. The network of cords and of blades comprises at least one node between two cords. Each cord of the network overmolds at least the edge of a blade.

Abstract: The present invention performs special heat treatment on a polymer film in a temperature range from (i) a lower limit to temperature rise being equal to or higher than a starting temperature of thermal decomposition of the polymer film, i.e., which is a temperature observed at an early stage of the thermal decomposition of the polymer film, to (ii) an upper limit to temperature rise being equal to or lower than an intermediate temperature of thermal decomposition of the polymer film. This reduces foaming in the film during graphitization treatment following the special heat treatment. Thus, even with a higher heating rate for graphitization, it is possible to produce a graphite film having good quality.

Abstract: The invention relates to a process for the manufacture of thermoplastic resin parts, comprising the steps of: a) introducing a thermoplastic material (2) in a cavity (11) of a mold (1); b) closing the mold (1), compressing and distributing the thermoplastic material (2); c) opening the mold (1) and removing the obtained product. Step a) comprises the steps of a1) depositing the thermoplastic material (2) on a carrier support (4); a2) moving the carrier support towards the cavity of the mold; a3) depositing the thermoplastic material (2) inside the cavity of the mold.

Abstract: The present invention refers to polymeric membranes and its synthesis with combination of innovative characteristics at the level of the bi-soft segment polyurethane material and at the level of the structure as integral asymmetric membranes. The hemocompability properties—non-hemolytic, non-thrombogenic and no platelet adhesion—combined with the high fluxes of permeation of O2 and CO2 have been designed for the use of the membranes in medical equipments that involve contact with blood like extracorporeal blood oxygenators and can be further designed for hemodialysers and imunnisolation barriers.

Abstract: Some aspects provide a method of generating a support structure for an object, the support structure and the object to be fabricated via one or more additive fabrication techniques, comprising identifying one or more regions of the object as one or more regions to which mechanical support is to be provided, identifying one or more support points within at least a first region of the one or more regions, and generating the support structure for the object, the support structure comprising one or more support tips coupled to the object at the one or more support points, the support tips being generated based at least in part on a direction normal to the surface of the object at the respective support point.

Abstract: A print head assembly that includes a print head carriage and multiple, replaceable print heads that are configured to be removably retained in receptacles of the print head carriage. The print heads each include a cartridge assembly and a liquefier pump assembly retained by the cartridge assembly.

Abstract: An imprinting method forms a pattern in a resist surface of a substrate coated with a thermoplastic resist by using a mold having a pattern of projections and recesses formed in a transfer surface. The method includes an alignment step, a heating step, a press step, a cooling step, and release step, wherein the steps are performed in a plurality of units selected from independent units, composite units, and combinations of independent units and composite units. A mold and a substrate are paired with each other and conveyed between the units. An imprinting apparatus includes a plurality of units which perform the steps in the imprinting method and which are selected from independent units, composite units, and combinations of independent units and composite units. Conveying devices are provided which convey the mold and the substrate paired with each other between the plurality of units.

Abstract: A method for the manufacture of container preforms in which recycled plastic material is subjected to at least one heat treatment in a recycling machine before it is transferred to a preform machine, where at least a major portion of heat introduced into the plastic material during its heat treatment and storage is transferred from the recycling machine with the plastic material into the preform machine. In a plant embodied for carrying out the method, the recycling machine is coupled with the preform machine either directly or via at least one intermediate storage such that at least a major portion of heat introduced in the recycling machine during a heat treatment of the plastic material can be transferred with the plastic material into the preform machine.

Abstract: A pellet mill is disclosed having a ring die and a powered extrusion roll with external bearings. The ring die may be powered or free rotating. Pressure and temperature at the pinch gap between the die and roll may be monitored and the mill rotation drives and the pinch gap size may be adjusted during operation. The operational parameters may be monitored and controlled by a computer based system in real time.

Abstract: This disclosure relates to fluid delivery devices which include a body defining a fluid channel with filtration. In one embodiment, the body is molded to include a barrier which extends across the fluid channel and a series of apertures or openings are formed through the barrier. A laser device may be used to form the apertures through the barrier.

Abstract: The present invention provides a process for forming a composite material. The present invention further provides methods of improving the fiber volume fraction and/or the dimensional thickness of a composite panel.

Abstract: A method of manufacturing a structure, in particular an aircraft fuselage of composite materials comprising a skin (2) and V-section members fastened to the skin (2) referred to as stiffeners (4). The method comprises a step of positioning punches on a mandrel in order to form channels between the punches. The channels are disposed in at least two networks (6a, 6b, 6c), each channel of the same network (6a, 6b, 6c) meeting at least one channel of another network at a node (8). The method also comprises a step of positioning preforms for stiffeners in the channels such that at least two stiffeners (4) meet at said node (8) and a step of injecting resin so as to assemble the stiffeners (4). A structure made as a single piece is thereby obtained.

Abstract: Systems and methods for controlling permeability in vacuum infusion processes are disclosed. A system includes a tool surface, a flexible film, a preform, a magnetic field source, and a magnetic element. The flexible film has a periphery sealingly coupled to the tool surface to define a volume. The preform is disposed within the volume. The magnetic field source is configured to generate a magnetic field. The magnetic element is positioned to receive the magnetic field generate by the magnetic field source. The magnetic element is configured to move the flexible film away from the upper side of the tool surface under application of the magnetic field. A method includes generating a magnetic field with the magnetic field source and receiving the magnetic field with the magnetic element to move the flexible film away from the upper side of the tool surface, thereby increasing permeability of the preform.

Abstract: An automated process facilitates the fabrication-oriented design of a mold for an inflatable, deformable balloon. The automated process comprises a computational balloon design process that, given a desired shape of an inflated balloon, computes an optimal rest shape of the balloon that, when inflated, approximates the desired shape as closely as possible. In such a design process, the optimal rest shape of the balloon is solved for numerically using a physics-driven shape optimization method combining physical simulation of inflatable elastic membranes with a dedicated constrained optimization algorithm. Once the optimal rest shape is determined, a dip mold can be fabricated that is suitable for manufacturing balloons having such a rest shape.

Abstract: An imprinting method includes the steps of setting a room-temperature imprint resist-coated substrate and a mold having a transfer surface having a pattern of projections and recesses therein in an assembling jig, pressing the patterned surface of the mold against the resist surface of the substrate, and releasing the mold from the substrate to separate the substrate, the mold and the assembling jig from one another. The steps are performed in plural independent units in each of which one step is executed, and the mold and the substrate are paired with each other by the assembling jig and conveyed between the units in a range of from the alignment step to the separation step. An imprinting apparatus includes an alignment unit which performs the alignment step, a press unit performing the press step, and a separation unit performing the separation step, wherein conveyance devices are provided to convey the mold and substrate between units.

Abstract: The method for producing the porous sheet of the present invention includes the steps of (I) preparing a plurality of sheet materials that contain polytetrafluoroethylene and carbon particles and (II) stacking the plurality of sheet materials over one another and rolling the stacked sheet materials. In the method for producing the porous sheet of the present invention, step (I) and step (II) may be repeated alternately. Further, as the sheet materials to be used in the production method of the present invention, a base sheet obtained by forming a mixture containing polytetrafluoroethylene and carbon particles into sheet form also can be used, or a laminated sheet obtained by stacking a plurality of base sheets over one another and rolling them also can be used, for example.

Abstract: According to the invention, a micro-structured element is manufactured by replicating/shaping (molding or embossing or the like) a 3D-structure in a preliminary product using an replication tool (1). The replication tool comprises a spacer portion (1c) protruding from a replication surface (1a). The replica (the micro-structured element, for example the micro-optical element or micro-optical element component) may be made of epoxy, which is cured—for example UV cured—while the replication tool is still in place. The replication process may be an embossing process, where the deformable or viscous or liquid component of the preliminary product to be shaped is placed on a surface and then the replication tool is pressed against this surface. As an alternative, the replication process may be a molding process.

Abstract: A method for dry casting concrete block using a resilient mold having a cavity for forming a block face and a form having a block body forming cavity. The form may be offset from the mold to provide steps where the block face joins the body for aligning stacked blocks. Alternately, the form cavity may have a dimension smaller that the height of the block face and can be offset to form a step between the block face and either the top or bottom of the block. Alternately, an insert may be placed in the form adjacent the mold for forming a downwardly projecting lip along the back of the block. Blocks are formed using a dry cast concrete block machine. After casting, the form is removed from the block. The block remains supported on the mold until after it has cured.