Abstract: A three dimensional mold object manufacturing apparatus manufactures a three dimensional mold object by repeatedly layering layers using a composition including particles. The apparatus includes a layer forming section configured to form the layers using the composition, a binding liquid applying unit configured to apply binding liquid for bonding the particles, an infrared ray irradiating unit configured to cure the binding liquid, and a bulge detecting unit configured to detect a bulge on the layers. The layer forming section and the infrared ray irradiating unit are configured to move in the same direction. When the bulge detecting unit detects the bulge with a height equal to or more than a predetermined height formed on one of the layers, the layer forming section is configured to adjust a thickness of a subsequent one of the layers, which is provided directly on the one of the layers where the bulge is detected.

Abstract: A shaping method for performing shaping by sequentially stacking a shaping material on a stage on the basis of slice data, the shaping method includes: a step of obtaining slice data by slicing data on a three-dimensional model of a shaping target into a plurality of layers in a predetermined direction; and a step of sequentially stacking the shaping material on the basis of the obtained slice data for the plurality of layers, wherein in a case where a change instruction to change the data on the three-dimensional model of the shaping target is received during shaping, a processing process corresponding to the change instruction is performed on remaining slice data to be used for the shaping after the change instruction among the slice data for the plurality of layers, and the shaping is continued using the remaining slice data after the processing process.

Abstract: A system for forming stacked material is provided. The system may include a housing defining an interior space and comprising a bottom wall and a side wall coupled to said bottom wall; at least one tool configured to shape the stacked material, said at least one tool disposed within said interior space; a membrane extending at least partially over said bottom wall and spaced a distance from said bottom wall, said membrane configured to move towards said bottom wall; and at least one intensifier mechanism disposed in said interior space and configured to induce a force against a portion of the stacked material and against said at least one tool as said membrane is moved towards said bottom wall. Methods are also providing for forming such a stacked material.

Abstract: A method of shaping the profile of a fan casing having an inside surface, the method including placing the casing around a surface of revolution of a drum of shaping tooling; interposing at least one bladder that is inflatable under the action of a fluid under pressure between a portion of the inside surface of the casing and the drum, the bladder extending over all or part of the surface of revolution of the drum; stoving the assembly including the casing, the tooling, and the at least one bladder at a predetermined temperature; and during the stoving, applying isostatic pressure via the at least one bladder so as to impart a cylindrical profile to the portion of the inside surface of the casing facing the at least one bladder.

Abstract: The composite pultruded products either in “I” profile or “Plate” profile of higher cross sectional area where said products consisting essentially synthetic polyester felts as core impregnated with a resin system comprises of at least one resin, curing system comprising a curing agent and an accelerator, a filler, a thinner, pigment or any other additives; encapsulated between bi-directionally and/or uni-directionally oriented synthetic fabric selected from polyester, carbon, aramid, glass, basalt and mixtures thereof impregnated with said resin system are provided.

Abstract: A method of infusing liquid resin into a preform involves positioning a preform on a planar section of a tool surface and a trough section of the tool surface, where the planar section of the tool surface is positioned vertically above the trough section of the tool surface and with there being a plurality of grooves in the planar section of the tool surface and a bottom of the trough section of the tool surface. At least one of a fluid impervious sheet, a second tool and a vacuum bag is secured on the tool surface over the preform forming a sealed volume on the tool surface. A pressure differential and a flow of resin is supplied onto the tool surface and the liquid resin is infused into the preform by the pressure differential.

Abstract: Disclosed is a method for producing components from fiber-reinforced thermoplastic on the basis of fiber tapes impregnated with matrix material. The method includes manufacturing a multitude of semi-finished products, each of which has a plurality of non-consolidated layers of fiber tapes. The semi-finished products are placed in a consolidation device in such a way that the semi-finished products are in direct contact with one another. The semi-finished products are then consolidated using the consolidation device and the semi-finished products are at least partially joined to one another during the consolidation process. The joined semi-finished products are then cut apart using a cutting device.

Abstract: A carrier for carrying an ophthalmic lens comprises: a basket (10) comprising a basket wall defining a concave cavity for accommodating an ophthalmic lens (100), the basket further comprising at least three recesses (12) arranged in the basket wall at different locations along the circumference of the basket (10); and a retainer (20) comprising at least three retainer arms (21) arranged in a star-shaped configuration corresponding to the arrangement of the recesses (12) along the circumference of the basket (10). In an assembled state each retainer arm (21) of the retainer (20) engages with a corresponding one of the recesses (12) in the basket wall of the basket (10) to retain the ophthalmic lens (100) in the cavity.

Abstract: A composite material is provided including a polymer matrix and undercooled liquid metallic core-shell particles disposed in the matrix, wherein the particles each have an outer shell and a liquid metallic material as a core contained within the outer shell. The outer shell is frangible such that the liquid metallic material is released from at least some of the particles in response to a mechanical load applied to the composite and solidifies in-situ in the polymer matrix. As a result, the composite material can be self-strengthening and self-healing and can be reconfigurable in shape at ambient temperature.

Abstract: A fully formed, freestanding, curvilinear geometric shaped, hashish cigarette product. A method of making the product consisting, substantially of hashish, the method comprising applying pressure to a collection of kief via a press for a period of time sufficient to form a pliable sheet of hashish having a thickness of 0.5 to 1 mm, cutting or trimming the pliable sheet into a substantially rectangular section, rolling the section of pliable sheet around an object having a curvilinear geometric shape at least one full rotation, and separating the rolled section of pliable sheet from the object, leaving only the fully formed, freestanding, curvilinear geometric shaped, hashish cigarette product.

Abstract: A plant for building tyres of at least two different models for vehicle wheels, includes at least a tyre building line, which in turn, includes: a plurality of work stations arranged according to a sequential series, each work station being adapted for building at least one structural component of each tyre and assembling at least one elementary component; at least one handling device for the tyres being processed on the respective forming supports associated to each work station; and at least one transfer device adapted for transferring the tyre being processed on its forming support from any first work station of the sequential series to any other second work station not adjacent thereto of the sequential series, so that the tyre being processed on its forming support only passes in the first and second work stations.

Abstract: An exemplary method of manufacture for a spoke (100) of a non-pneumatic wheel. The spoke can be manufactured with a reinforcement structure having reinforcement elements and one or more layers of material. The spoke can also be provided in various shapes and configurations. The spoke includes anchors (112, 114) that allow the spoke to be more readily incorporated into, or removed from, a non-pneumatic wheel. More particularly, the anchors also allow the spoke to be joined as one-piece with the non-pneumatic wheel or releasably connected on one or both ends with the non-pneumatic wheel.

Abstract: The present technology provides a method of building a tire and a tire building machine. When bonding together longitudinal direction end portions of an outer circumferential side strip-shaped rubber member wrapped around a building drum to form a cylindrical shape, inner circumferential surfaces of projecting parts of the longitudinal direction end portions that project in a drum width direction relative to an inner circumferential side strip-shaped rubber member are supported by a support section, and the inner circumferential surfaces are positioned at a level of an outer circumferential surface of the inner circumferential side strip-shaped rubber member. In this state, the projecting parts are pressed in the drum width direction by a pressing section, and the longitudinal direction end portions are bonded together.

Abstract: A plant for building tyres, includes: a shaping work station configured for receiving a carcass sleeve; at least one radially expandable/contractible toroidal forming drum engageable in the shaping work station; at least one work station configured for building at least one component of a crown structure on a radially external surface of a tyre being processed, defined starting from the carcass sleeve that is shaped and coupled to the forming drum; transfer devices configured for moving said forming drum along a closed-loop completion path and arranging it in proximity to the work station in order to obtain a green tyre, the closed-loop completion path being extended from an initial work station to a final work station coinciding with the shaping work station; and a pick-up device configured for picking up said green tyre decoupled from the respective forming drum.

Abstract: A machine for automatically manufacturing customized packaging items (I) from continuous laminar material, comprising at least one cutting and creasing unit (2) to form sheets (F) of laminar material with a plurality of cuttings and/or bendinglines (C), at least one variable-geometry forming unit (5) for forming the sheet (F) so cut and creased into a package (I) of predetermined dimensions, a multifunctional robotized manipulator (24) for automatically picking up one sheet (F) at a time from the cutting and creasing unit (2) and feeding the forming unit (5), the manipulator (24) being designed to automatically adapt to the predetermined dimensions of the packaging (I) on the forming unit (5) and interact therewith to form the packaging (I).

Abstract: A method for three-dimensionally forming a resin packaging member. The resin packaging member is heated to a temperature not higher than the Vicat softening temperature of the packaging member, and then compression shaping is conducted at a temperature not lower than room temperature and not higher than the Vicat softening temperature so as to form a three-dimensionally shaped portion with a large protrusion.

Abstract: To facilitate permeation of water when water is applied to the crimping range of a sheet made of a water-permeable paper material. A binding unit applies water to placed sheets and then crimp-binds the sheets. The binding unit includes a pair of pressure teeth (pressure teeth and receiving teeth part) provided on both the front and back sides of the sheets and configured to crimp-binding the sheets, a water reservoir provided on the back surface side of any one of the pressure teeth and configured to store water to be applied to the sheet, and a pressurizing member (piston) that pressurizes the water in the water reservoir to apply water to the sheet crimping range.

Abstract: Co-extruded and extruded high-altitude balloons and apparatus and methods for manufacture. A high-altitude balloon has a plurality of layers of coextruded balloon panel extrudate, a first one of the layers extrusion-bonded to a second one of the layers along a first edge, the second one of the layers extrusion-bonded to a third one of the layers along a strip spaced apart from the first edge, extrusion-bonding of successive layers alternating between the first edge and the strip, the first one of the layers and the last one of the layers extrusion-bonded together along a second edge.

Abstract: A multi-layered pipe comprising a wall having a polyolefin inner layer and a barrier layer being an outer layer relative to the polyolefin inner layer, the barrier layer being formed of a non-metallic barrier material, which barrier material has relative to polyolefin an enhanced resistance to permeation therethrough of hydrocarbon molecules, the pipe further comprising a protective layer being an outer layer relative to the barrier layer, the pipe further comprising a peelable layer between the polyolefin inner layer and the barrier layer, the peelable layer being formable around the polyolefin inner layer by means of extrusion. The protective layer and the barrier layer may together be incorporated in a single layer.

Abstract: A moisture permeable composite material for a wide variety of applications including without limitation prosthetic liners, orthotic liners, clothing, space suits and environmental suits comprising: an inner layer comprising a hydrogel, or a thin tough hydrogel membrane, or dual network hydrogel; and an outer layer comprising a porous elastomer or an open cell foam.

Abstract: A multicomponent dielectric film includes discrete overlapping dielectric layers of at least a first polymer material, a second polymer material, and a third polymer material. Adjoining dielectric layers define a generally planar interface therebetween which lies generally in an x-y plane of an x-y-z coordinate system. The interfaces between the layers delocalizing the charge build up in the layers. At least one dielectric layer including a stack of discrete polymer layers with polymer layer interfaces extending transverse to the x-y plane and optionally at least one filler having a higher dielectric constant than the first polymer material, the second polymer material, and/or the third polymer material.

Abstract: A polymer matrix composite includes layers that alternate between a thin carbon fiber veil layer and a thicker base carbon fiber reinforcement layer. Each veil is coated with conductive carbon nanotubes (CNTs) prior to being added as a laminate layer. Epoxy resin fixes CNTs extended into adjacent reinforcement layers, which results in a composite improved in interlaminar strength, fracture toughness, and impact resistance. Thermal and electrical conductivity are also improved due to the conductive CNTs bridging the resin-insulating interlayer region. As the fuzzy fiber veil is not relied on to provide strength or stiffness to the composite structure, any damage to the veil will not affect composite integrity. Also, as the CNT growth is not on a replacement section of reinforcement layer, the composite avoids pitfalls of strength degradation, reinforcing phase continuity disruption, and residual stress introduction.

Abstract: A stretchable laminated sheet with hydrophilic properties, which particularly has an excellent feeling and stability in wearing and is capable of efficiently enhancing the effect and efficacy brought about by a liquid component on a skin or other object, when the stretchable laminated sheet is impregnated with the liquid component and wet and then used on the skin or other object.

Abstract: A method is provided for forming a flexible fire-resistant and thermal resistant sheet product. Such a method comprises securing a first insulation material sheet to a first cover sheet to form a first sheet product portion including a perimeter; securing a second insulation material sheet to a second cover sheet to form a second sheet product portion including a perimeter; and securing the first sheet product portion to the second sheet product portion, at least about the perimeters thereof and such that the first insulation material sheet is disposed adjacent to the second insulation material sheet, to form the sheet product. An associated apparatus is also provided.

Abstract: A protective article is disclosed including a sheet with a first surface, and at least one adhesive portion arranged on the first surface. The adhesive is a water-based adhesive, such as a water-based acrylic adhesive, that allows the sheet to be non-permanently adhered to an object. The adhesive may be sprayed, rolled, printed, or stamped onto the first surface.

Abstract: [Object] To provide a building material capable of solving the problem of peeling-off, turning-up, and displacement of a protective sheet from a coating during storage, transport, and construction and capable of solving the problem of degradation of surface finishing of the coating as a result of the protective sheet being peeled off from a coating surface of the building material. [Solution] A building material 10 includes a base material 1 having a design surface on a surface thereof, a coating 2 that is formed on the design surface and that has a surface having a 60-degree specular gloss of 80 or greater, and a protective sheet 3 affixed to the coating 2 so as to be peelable. The coating 2 has a pencil hardness of HB or higher. The adhesive force between the coating 2 and the protective sheet 3 is 2 to 8 N/20 mm.

Abstract: There is provided a process for preparing a laminate, comprising electrostatically printing a transparent electrostatic ink composition onto a base material, wherein the transparent electrostatic ink composition comprises a thermoplastic resin, and a charge adjuvant and/or a charge director; providing a substrate; and contacting the substrate with the transparent electrostatic ink composition while the thermoplastic resin is softened or molten, and then allowing the thermoplastic resin to harden, so that the electrostatic ink composition adheres the base material and the substrate together. Laminate materials are also disclosed.

Abstract: A packaging product taking the form of a thermally insulating packaging material includes a first multi-layer film bonded to a second layer of multi-layer film. Each multi-layer film can include one or more polymer layers and one or more metallized layers. The multi-layer films are bonded to each other with a pattern that leaves a number of inflatable cells dispersed across a surface of the sheet. At least one end of the sheet can be left unbonded. The uninflated packaging product can be stored and distributed in its uninflated state prior to it being used as a packaging material. Once ready for use, the cells can be inflated through the unbonded ends and the unbonded ends of the sheets can then be sealed to form a robust sheet of thermally insulating packaging material.

Abstract: A glass article includes a glass core layer and a glass cladding layer adjacent to the core layer. An average coefficient of thermal expansion (CTE) of the core layer is greater than an average CTE of the cladding layer. An effective 109.9 P temperature of the glass article is at most about 750° C.

Abstract: A wood adhesive, a method for adhering wood materials using the same, and a composite wood structure using the same are disclosed. The wood adhesive comprises a first agent and a second agent, wherein the first agent comprises sodium carboxymethyl cellulose having a molecular weight from about 15,000 to about 500,000 and a degree of substitution from about 0.4 to about 2, and the second agent comprises polymeric quaternary amine.

Abstract: A laminated surface covering including a facing material made of vinyl and a backing material comprising a rubber component. The rubber component comprising at least a matrix of bonded rubber granules. A bonding material disposed between the facing material and the backing material. The facing material configured to melt at a temperature between 165° F. and 248° F. infiltrating the backing material thereby essentially encasing the rubber granules of the matrix and providing fire retardation and smoke suppression qualities.

Abstract: A waterproof membrane is described that includes a barrier layer and a functional layer. The functional layer can include a thermoplastic polymer that changes consistency under the influence of highly alkaline media, and an adhesive. The production and use of the membrane are also described. The functional layer of the membrane can be designed in the form of a film, a coating, or a nonwoven fabric. The fibers in the fabric can include a hard core that is surrounded by a polymer layer, is inert prior to coming into contact with liquid concrete and acts as a protective layer. Thus, the membrane is protected from premature aging and allows work to be performed with the seal in place. During the concreting process, i.e. when the functional layer comes into contact with liquid concrete, the polymer dissolves and thus allows the adhesive to bond to the concrete. The functional layer thus acts as an adhesive sealing compound and the seal is leakproof.

Abstract: The purpose of the present invention is to provide a thermal conductive insulating sheet which has achieved a good balance between insulating properties and thermal conductivity higher than ever before. A thermal conductive insulating sheet according to the present invention contains a thermal conductive spherical filler (excluding boron nitride), a boron nitride filler and a binder resin, and has a plurality of layers (A) that mainly contain the thermal conductive spherical filler (excluding boron nitride) and one or more layers (B) that mainly contain the boron nitride filler, with the layers (A) and the layers (B) being alternately laminated so that layers (A) form the outermost layers.

Abstract: A multilayer film structure including a top encapsulation layer A, a tie Layer B between top Layer A and bottom Layer C and a bottom layer C, the multilayer film structure characterized in that tie Layer B includes a crystalline block composite resin or a block composite resin and bottom Layer C includes a polyolefin having at least one melting point greater than 125 C.

Abstract: A flexible bonding roll including one or more pressure applying members is configured to operatively engage an anvil roll. The one or more pressure applying members include one or more spring elements. The spring elements allow for the one or more pressure applying members to compress as the pressure applying members are engaged by the outer circumferential surface of the anvil roll. The compression of the pressure applying members allows for relatively reduced damage of substrates and equipment during bonding.

Abstract: There is disclosed a web transfer apparatus including a web transfer roller to advance a web, a foil transfer roller to advance a foil, and a movable curing unit. The foil transfer roller is movable between a first position and a second position. In the first position, the foil transfer roller is to press the foil against the web and in the second position the foil transfer roller is to disengage the foil from the web. The movable curing unit may comprise a curing device and may be movable between a first position adjacent to the web and a second position remote from the web.

Abstract: The present invention relates to a method for manufacturing of a laminated cellulose-based liquid or semi-liquid food packaging material, wherein the laminated packaging material has a bulk material layer comprising a low-density cellulose spacer layer, an outside module comprising a substrate layer having a print surface and an inside material module comprising a barrier layer or barrier coating. The invention further relates the laminated packaging materials obtained by the method and to a packaging container for liquid food packaging, comprising the laminated packaging material or being made from the laminated packaging material obtained by the method.

Abstract: According to a method of manufacturing an image display device of the present invention, a photo-curable resin composition in a liquid state is applied to a surface of a light-transmitting cover member including a light-shielding layer or a surface of the image display member to a thickness greater than that of the light-shielding layer. Then, in this state, the photo-curable resin composition is irradiated with a UV ray to be pre-cured, thereby forming a pre-cured resin layer. Next, the image display member and the light-transmitting cover member are stacked via the pre-cured resin layer and thereafter, the pre-cured resin layer is irradiated with a UV ray to be completely cured, thereby forming a light-transmitting cured resin layer.

Abstract: The present disclosure is directed towards systems and methods for transferring graphene from the surface of one substrate to another. In one particular embodiment, the graphene layer is grown on a surface of a first substrate, where the bottom of the first substrate is then affixed to the surface of a second substrate. The second substrate may include material made of a rigid or semi-rigid composition to provide structural support and backing to the first substrate. The graphene layer may then be delaminated from the first substrate and transferred to a target surface, such as the surface of an electronic device or biosensor.

Abstract: What is disclosed is an object holder for securely retaining an object while it is being printed in a direct-to-object print system and a direct-to-object print system configured to use various embodiments of the object holder of the present invention. In one embodiment, the object holder comprises a metallic shuttle mount configured to slideably traverse a support member positioned parallel to a plane formed by at least one printhead configured to eject marking material on to a surface of an object. A plurality of magnetic retainers are each shaped to physically secure the object to the metallic shuttle mount while the object is being moved.

Abstract: A feedstock line for additively manufacturing an object. The feedstock line has a length and comprises a continuous flexible line. The continuous flexible line has a peripheral surface. The feedstock line also comprises a covering. The covering is releasably coupled to the peripheral surface of the continuous flexible line.

Abstract: A precision positioning device of a unit-type die cutting & hot stamping machine includes a positioning element on an input end of a first imprinting element and a positioning element on an output end of each imprinting element. Two neighboring positioning elements accomplish the positioning between the two positioning elements together. Each positioning element is constituted by a positioning assembly installed symmetrically on each end of the imprinting element. The positioning assembly includes a positioning rod which can rotate against an installation shaft. Each positioning rod includes a positioning block which is provided with a reference surface. A rear side of the gripper is provided with a reference matching surface. By the positioning elements, the accuracy in the art of die cutting & hot stamping can be assured when the machine is performing a multiple-working-position procedure.

Abstract: The present invention relates to the bulk manufacture of objects, materials, or products from sheets or fabrics, which are either folded or to be folded, with designs, images, text, and raised patterns that are reconstituted strip by strip at the edge of the folds thereof, in the recessed portions, and in the edge surfaces. The present invention provides a process for repeating designs and shapes, which are shifted relative to one another, on at least one sheet and from one sheet to the other, by reproducing, cutting, or stamping, is merged with folding operations necessitated by the design or suitable for the technical process of the machines in a predetermined manufacturing procedure.

Abstract: A printing head module for a 3-D printing apparatus includes a 3-D print head, an ink-jet print head and a baking module. The 3-D print head includes a melting module and a base-material nozzle to print a plurality of staking layers. The ink-jet print head is connected to the 3-D print head and includes an ink nozzle to dispense ink on each stacking layer. The baking module is disposed between the 3-D print head and the ink-jet print head and includes a fan, a discharge casing and a heating module. The fan includes an air-discharge side facing the base to provide an air flow. The discharge casing is disposed on the air-discharge side. The heating module is disposed between the fan and the discharge casing to heat the air flow and the heated air flow being blown out via the discharge casing for drying the ink layer.

Abstract: A method of operating a printing device during a power loss event includes, with a power loss protection supply voltage generator coupled to a printhead driving circuit, maintaining a power loss protection supply voltage (VDD_plp) to the printhead driving circuit until a high voltage power supply (VPP) to the high voltage devices drops below a threshold voltage.

Abstract: The application device comprises a sensor that detects movement of the application device on an application target, a camera that obtains a captured image that is an image of a surface of the application target and is captured during the movement of the application device, a head that applies ink, and a processor, wherein the processor specifies an ink application area based on the captured image of the surface of the application target that is captured by the camera in accordance with the movement that is detected by the sensor, and controls the head to apply ink to the ink application area in accordance with the movement.

Abstract: A liquid discharge head includes a nozzle to discharge a liquid, an individual chamber communicating with the nozzle, a supply channel communicating with the individual chamber to supply the liquid to the individual chamber, and a discharge channel communicating with the individual chamber to discharge the liquid in the individual chamber. A fluid resistance of the supply channel is greater than a fluid resistance of the discharge channel.

Abstract: A liquid ejection head includes a manifold configured to store liquid therein, a plurality of ejection channels, and a dummy channel. Each ejection channel communicates with the manifold and is configured to receive liquid from the manifold and eject liquid through a corresponding nozzle thereof open to a nozzle surface. The dummy channel communicates with the manifold and includes a dummy nozzle open to the nozzle surface. The dummy channel further includes a pressure chamber, an actuator configured to apply pressure to liquid in the pressure chamber, a communication passage connecting the manifold to the pressure chamber, and a circulation passage through which the pressure chamber communicates with the manifold. The circulation passage is different from the communication passage and located between the dummy nozzle and the manifold.

Abstract: The present disclosure provides supports for microfluidic die that allow for nozzles of the microfluidic die to be on a different plane or face a different direction from electrical contacts on the same support. This includes a rigid support having electrical contacts on a different side of the rigid support with respect to a direction of ejection of the nozzles, and a semi-flexible support or semi-rigid support that allow the electrical contacts to be moved with respect to a direction of ejection of the nozzles. The semi-flexible and semi-rigid supports allow the die to be up to and beyond a 90 degree angle with respect to a plane of the electrical contacts. The different supports allow for a variety of positions of the microfluidic die with respect to a position of the electrical contacts.

Abstract: The present disclosure provides supports for microfluidic die that allow for nozzles of the microfluidic die to be on a different plane or face a different direction from electrical contacts on the same support. This includes a rigid support having electrical contacts on a different side of the rigid support with respect to a direction of ejection of the nozzles, and a semi-flexible support or semi-rigid support that allow the electrical contacts to be moved with respect to a direction of ejection of the nozzles. The semi-flexible and semi-rigid supports allow the die to be up to and beyond a 90 degree angle with respect to a plane of the electrical contacts. The different supports allow for a variety of positions of the microfluidic die with respect to a position of the electrical contacts.