Abstract: A fusion cutting device includes a fusion cutting device body made from a connecting-member enclosure in the shape of a tube, for slidably passing a connecting member therethrough, an electric heater wound outside the connecting-member enclosure in the form of a coil, and a case configured to contain these connecting-member enclosure and electric heater, a power source for supplying electric current to the electric heater, and a switch circuit configured to flow the electric current from the power source to the electric heater. The first object and the second object are fixed by the connecting member. When the switch circuit turns on, electric current flows from the power source to the electric heater, thereby fusion cutting the connecting-member enclosure and the connecting member that pass through the connecting-member enclosure. The first object and the second object are thereby separated.

Abstract: A portable power tool includes at least one seating unit configured to seat on a workpiece, at least one housing unit mounted so as to be movable relative to the seating unit, and at least one movement delimitation unit that has at least one movement delimitation element configured to set a length of a movement travel of the housing unit relative to the seating unit. The portable power tool further includes at least one decoupling unit configured, in at least one operating state, to decouple the movement delimitation unit from a movement of the housing unit when the movement delimitation element is in a fixed state. The decoupling of the movement delimination unit occurring at least in the case of a movement of the housing unit in the direction of the seating unit.

Abstract: A process for producing pellets or granules comprising fibers of a lignocellulousic material, for use as a feedstock in plastics manufacture, conveying in a dry or wet air stream and applying to the fibers a liquid formulation comprising one or more polymers, monomers, or oligomers, forming the fibers into a solid product, and breaking down the solid product to produce said pellets or granules. Typically the conduit conveys the fibers in a plant for manufacture of fiber board.

Abstract: The invention relates to a load-bearing plate for supporting a bulky device of medical engineering, especially a magnetic resonance imaging device. Said load-bearing plate comprises a flat hollow body which is filled with a high-density filler, said filler being cast to give a rigid composite by means of a solidified casting compound and the hollow body as well as the filler and the casting material consist of a non-magnetic material. The invention further relates to a method for producing a load-bearing plate of the above type and to a method for supporting a bulky device of medical engineering.

Abstract: A method for controlling at least one workability parameter of a concrete contained in the container of a mixer with a non vertical rotational axis, includes making the container turn at least at least two different rotational speeds; determining, for each of the rotational speeds, a rotary drive torque C of the container, a value of shear stress r of the concrete and a speed gradient ? of the concrete according to the following relationships: ?=T(?)·C and ?=G(?). ? where T and G are predetermined functions; determining a relationship of variation of shear stress ? according to the speed gradient ? by extrapolation and/or approximation from the determined values; and providing an indication of the workability parameter of the concrete based on the relationship variation.

Abstract: Provided is a resin-coated saw wire that, when used to cut a workpiece, has a shallow depth of a damaged layer and can give a cut article having a smooth surface. The resin-coated saw wire is used in cutting of the workpiece using a sawing machine and includes a steel wire and a resin coating covering the steel wire surface. The resin coating contains substantially no abrasive grain, has a hardness at 120° C. of 0.07 GPa or more, and has a hardness controlled so as to prevent abrasive grains from coming into the resin coating, which abrasive grains are sprayed during workpiece cutting.

Abstract: A mixing apparatus includes a main agent supply unit that supplies a main agent to a main agent pipe and a curing agent supply unit that supplies a curing agent to a curing agent pipe. A mixing pipe, with which the main agent pipe and the curing agent pipe merge and through which the main and curing agents pass, has a static mixer and a dynamic mixer that sequentially mix the main and curing agents. A discharge pipe discharges a sealant obtained through the static mixer and the dynamic mixer. An in-system decompressor sets at least the static mixer and the dynamic mixer in a decompressed atmosphere before the main and curing agents are mixed.

Abstract: A composite tube is made by applying a mixture of individual reinforcing fibers and a resin onto the interior cylindrical wall of the spinning mandrel.

Abstract: The present invention provides a method for producing a replica mold for imprinting use which is inexpensive and has good properties including strength and flexibility. The method for producing a replica mold according to the present invention comprises the steps of: (A) coating a substrate with an organic-inorganic hybrid material; (B) semi-curing the coated surface with heat and/or an electromagnetic ray to produce a substrate for fine raised and depressed pattern formation; (C) pressing a master mold having a predetermined fine raised and depressed pattern formed thereon against the substrate for fine raised and depressed pattern formation by an imprinting method to transfer the fine raised and depressed pattern onto the substrate; and (D) irradiating the substrate for fine raised and depressed pattern formation onto which the fine raised and depressed pattern is transferred with an electromagnetic ray to cure the substrate.

Abstract: There are described a method for applying a coating to a surface of an ophthalmic lens mold. The mold includes male and female (20) mold halves, with each of the mold halves being provided with a lens forming surface (21). The method includes applying a temporary coating to at least a portion of at least one of the male and female mold halves (20), the temporary coating being capable of reducing adhesive forces between a lens forming material and the lens forming surface (21); and drying the temporary coating applied to the portion of the lens forming surface (21). Also described is a device (1) for applying such temporary coating to the portion of the lens forming surface (21) of the ophthalmic lens mold.

Abstract: An apparatus including a mold having a top opening which leads to an inner chamber. The mold may include a first, second, third, and fourth walls, and a bottom which enclose the inner chamber. The apparatus may further include a first and/or second devices which are configured with respect to the mold to supply first and/or second mixtures of quartz and resin to the inner chamber of the mold. The apparatus may include transportation sheet which lies in the inner chamber of the mold and on an inside surface of the third wall of the mold, and which is sandwiched between the first wall and the third wall of the mold and the second wall and the third wall of the mold. The first and second devices may include means for moving the mold to allow placement of the first and/or second mixtures in specific areas of the inner chamber.

Abstract: The present invention provides a composite optical element including a resin layer that is less susceptible to yellowing and has small cure shrinkage during formation. The present invention is a composite optical element including a resin layer obtained by polymerizing a resin composition containing a (meth)acrylate compound of a saturated aliphatic epoxy compound, a multifunctional isocyanurate compound, and a photopolymerization initiator.

Abstract: A formed ligneous body is provided which has high scratch-proof, water-proof and weather-proof properties, a decorative design surface with a natural and fine woody grain, a high degree of aesthetic dignity and a high ligneous property. The formed ligneous body includes a surface layer portion of-fiber cells of which are impregnated with a first resin material in a cured state and which has a decorative design surface, and a base layer portion of fiber cells of which are impregnated with a second resin material in a cured state. The surface layer portion and the base layer portion are formed integrally with each other in a flow molding process, and an amount of change of relative positions of the fiber cells of the surface layer portion during the flow molding process is less than that of the fiber cells of the base layer portion during the flow molding process.

Abstract: A vacuum bag assembly may include a bagging film and a tube bag. The bagging film may have a bagging film length and may be positioned over a composite layup and sealed to a tool surface having an inside corner. The tube bag may have opposing tube ends and a tube bag length and may be positioned over the composite layup along a length of the inside corner. Each one of the tube ends may be sealed to the tool surface along a first portion of a tube end perimeter edge and may be sealed to the bagging film along a second portion of the tube end perimeter edge such that each one of the tube ends is openable to atmosphere.

Abstract: A substantially rigid batten is attached to an external face of a vacuum bag to reduce wrinkling of the bag during vacuum bag compaction of a composite laminate layup.

Abstract: Punch arrangement for a press, in particular a rotary press, comprising at least one press punch having a punch head, a tool region and a punch shank extending between the punch head and tool region, further comprising at least one punch guide having at least one guide bore in which the punch shank of the at least one press punch is guided in an axially movable manner and at least one variable length sealing sleeve at least partially surrounding the shank, which sealing sleeve is retained with its first end against the punch shank or against the tool region of the press punch, the sealing sleeve being retained with its second end against an inner wall of the guide bore, the second end of the sealing sleeve, with the punch shank located in the guide bore, being captured between the inner wall of the guide bore and the punch shank. The invention further relates to a press and a rotary press.

Abstract: An apparatus for manufacturing a crash pad having a foam layer by injecting and foam-molding a foam liquid between a base and a skin may include a first mold and a second mold which mold the base by injecting molten resin into a base forming space formed in a mold-closed state and a vacuum mold for vacuum-molding the skin, in which when the vacuum mold to which the formed skin may be attached may be mold-closed with the first mold, a foam space may be formed between the skin and the base of the first mold, and an injection channel for injecting the molten resin into the base forming space and a foam liquid injection channel for injecting the foam liquid into the foam space may be provided in the first mold, such that the first mold may be used as a foam mold, together with the vacuum mold.

Abstract: The disclosure relates to a calibrator including a first plate opposing a second plate, the first plate having a first foam-expansion surface adjacent to a first anti-static surface, the second plate having a second foam-expansion surface adjacent to a second anti-static surface, wherein the first foam-expansion surface and the second foam-expansion surface are aligned to form a foam-expansion region, and wherein the first anti-static surface and the second anti-static surface are aligned to form an anti-static region. The disclosure also relates to a method of producing a polyetherimide foam, the method including passing a liquid polymer mixture comprising a polyetherimide through the calibrator.

Abstract: A golf ball comprises two generally hemispherical portions joined together at a parting line and comprising dimples on respective outer surfaces thereof. The parting line comprises a repeating pattern of curved segments alternating with straight segments. The parting line crosses a geometric equator of the golf ball, and wherein the parting line intersects at least one dimple bordering the equator. A mold for producing a golf ball is also described.

Abstract: Injection molding parts onto a carrier web located between mold halves, each mold half having a cavity, resulting in molded articles having parts on both sides of the carrier web. Polymer flow into the cavities is assisted by application of ultrasonic energy to the mold. After the molding operation, mold halves are separated, and the carrier web is advanced, or indexed, to a next position for another molding sequence. Articles produced include lenses with part of the carrier web between lens halves, and a carrier web bearing an array of molded parts.

Abstract: Disclosed herein are methods and systems for the preparation of a co-injection molded multilayer plastic article. Some methods include co-extruding a combined polymeric stream having an interior core stream encased by an inner stream and an outer stream. A volumetric ratio of the inner stream to outer stream is adjusted during injection of the combined stream into the a mold cavity to alter a streamline along which the interior core stream flows thereby forming cohesion member that structurally interlocks the interior layer with the inner layer, with the outer layer or with both. Some embodiments reduce or eliminate a need for addition of an adhesive in the composite stream to prevent delamination of layers of the resulting multilayer plastic article. In some embodiments, cohesion members may be employed to produce a desired cosmetic effect in a resulting article.

Abstract: A novel universal main feeder is described for cutting the large items into smaller items before they are fed into the feeder, hopper of the extruder. The sensor based control and the cutting device based resizing and quantity control enables a non-clog and smoother operation for recycling or waste management. The unique design of interchangeable cutting device enables the user to fit the pertinent cutting device blade, knives, shredders or hammer mills.

Abstract: A method of forming a dry adhesive by includes forming an electrospun non-woven of a spinnable polymer, wherein the polymer fiber forming the non-woven is aligned. A dry adhesive is provided that comprises aligned polymeric nanofibers. The polymeric nanofibers may be formed from a mixture of highly spinnable material is combined with an adhesive component to further enhance the adhesion onto substrates. The non-woven can further be processed by plastic deformation to create microprotrusions.

Abstract: A porous hollow fiber membrane that is suitable for treatment of liquid containing an inorganic substance and/or an organic substance, is obtained at a low cost performance, and has high water permeability performance, fretting resistance, and drying resistance. A deformed porous hollow fiber membrane according to the present invention is composed of a thermoplastic resin and includes a continuous asperity provided on the periphery in the longitudinal direction of the membrane, in which the periphery of the hollow fiber membrane in the circumferential direction includes continuous projected and depressed parts.

Abstract: A method for producing a plastic article includes extruding an approximately tubular blank from an extrudate and shaping the blank into a hollow body inside a blow-mold using differential pressure, wherein at least one insertable part is introduced into the interior of the partially molded plastic article before the latter is fully shaped into a finished plastic article, and the tubular blank is arranged between at least two halves of a blow-mold by means of an intermediate frame.

Abstract: A method of forming a thermoplastic article, comprises steps of: a) positioning at least one preheated first component being hollow and having at least one open end in two co-operating first mold halves; b) extruding a blow-moldable thermoplastic material into the first component and closing the mold halves; and c) blowing the blow-moldable thermoplastic material inside the mold halves to form an article on which the first component is fixedly engaged. The method is simple in implementation, low in cost and easy in modification, and by which a thermoplastic article of varied colors, patterns, materials, and/or functional components being fixedly mounted on its outer surface could be realized.

Abstract: A blow molding device and a blow molding method are disclosed that can blow-mold a container with a handle without requiring a handle inserter that inserts a handle into a blow molding section. A blow molding method for blow-molding a container with a handle includes heating a preform (2) that is held by a heating transfer jig (370), transferring the preform from the heating transfer jig to a blow transfer jig (420), and transferring the blow transfer jig in a state in which a handle (500) is held by the blow transfer jig to be adjacent to the preform in a transfer direction.

Abstract: The present invention relates to a base assembly (100) for forming a base portion of a plastic container. The base assembly comprises a base pedestal (104), a base mold attached to the base pedestal, a push rod (102) movable between a first position and a second position with respect to the base mold to reposition a portion of the plastic container, and an activation mechanism adapted to move the push rod between the first position and the second position.

Abstract: A thermoforming machine is provided having a load shaft end adjustment apparatus. The thermoforming machine load shaft end adjustment apparatus includes a load shaft, a backlash nut, a height adjustment nut, a collar, and at least one fastener. The load shaft has a threaded end segment and an axially extending key slot. The backlash nut is threaded onto the end segment. The height adjustment nut is threaded onto the end segment adjacent the backlash nut. The collar is configured to receive the height adjustment nut for rotation, having a key configured to be received within the key slot, and is configured to be mounted onto a platen of the thermoforming machine. At least one fastener extends between the backlash nut and the collar and is configured to secure together the backlash nut and collar with the height adjustment nut interposed there between. A method is also provided.

Abstract: A resin mold includes a resin layer having a depressions and protrusions pattern formed in the surface thereof, and a release layer including a mold release agent and formed of uniform thickness on at least the depressions and protrusions pattern of the aforementioned resin layer. The aforementioned resin layer has a solvent soluble resin, and an additive that has bleeding ability with respect to the solvent soluble resin, has a substituent group capable of coupling with the aforementioned mold release agent, and has a substituent group having compatibility with the aforementioned solvent soluble resin. The aforementioned additive is localized in the vicinity of the aforementioned resin layer surface. The group of the additive capable of coupling with the mold release agent condenses with the aforementioned mold release agent so that the aforementioned resin layer and release layer are bonded together.

Abstract: Disclosed is an adhesive system that allows for a strong adhesion of a member to a surface, while also allowing for easy removal of the member after a prolonged period of attachment. A releasing agent can be included in an adhesive layer of the adhesive system. A heating system, such as an induction heating system, can be used to heat the releasing agent to activate it to assist in removing the adhesive system.

Abstract: A bonding tool to facilitate bonding of a liner to a surface of a workpiece is provided. The bonding tool includes a bladder, which is inflatable from an initial size to an expanded size, a frame formed to define a recess in which the bladder is disposed, the recess being oriented such that, when inflated from the initial size to the expanded size, the bladder applies a predefined pressure to the liner such that the liner is pressed against the surface of the workpiece.

Abstract: A fabrication method of forming thermoplastic composite laminate parts with tailored and varying thickness in a continuous process. Automated equipment or hand lay-up are used to collate parts or components into a multi-layer stack. Each stack contains all plies, including ply build-up areas, tacked in the proper location to maintain orientation and location. Ply consolidation tooling contains all necessary part features and is coordinated to the customized multiple ply stacks to form a single integrated thermoplastic composite laminate potentially having areas of differing thickness from the multiple ply stacks.

Abstract: Provided is a laser beam apparatus for sealing a first substrate and a second substrate by irradiating a sealant between the first substrate and the second substrate using a laser beam, the laser beam apparatus including a controller, wherein the controller is configured to defocus the laser beam and to move a scanning central axis of the laser beam across a sealing path of the sealant.

Abstract: A process for reinforcing a trim panel for a vehicle using one or more micro-truss reinforcement patches. Each micro-truss reinforcement patch is secured to an inner surface of a show surface panel of the trim panel while it is in a partially cured state and then fully cured. The micro-truss patch is fusion bonded to the panel.

Abstract: A forming apparatus includes a base material jig provided on a base, adhesion means for making a sheet having an adhesion layer and covered to a base material retained on the base material jig adhere to the base material, and trimming means for performing trimming on the sheet with respect to the base material with the sheet adhered thereto, in a state in which the base material is not removed from the base material jig.

Abstract: This disclosure discloses an adhesive tape cartridge comprising an adhesive tape roll, a peeling part, a separation material roll, a support member, and adhering portion. The adhesive tape roll wound an adhesive tape comprising an adhesive layer and a separation material layer covering the adhesive layer. The peeling part is configured to peel the separation material layer from the adhesive tape fed out from the adhesive tape roll, and thereby to generate an affixing tape. The separation material roll is configured to wind the separation material layer peeled by the peeling part. The support member respectively rotatably supports the adhesive tape roll and the separation material roll. The adhering portion is configured to reseparably adhere the affixing tape generated by the peeling of the separation material layer by the peeling part.

Abstract: A method and apparatus for the additive manufacturing of three-dimensional objects are disclosed. Two or more materials are extruded simultaneously as a composite, with at least one material in liquid form and at least one material in a solid continuous strand completely encased within the liquid material. A means of curing the liquid material after extrusion hardens the composite. A part is constructed using a series of extruded composite paths. The strand material within the composite contains specific chemical, mechanical, or electrical characteristics that instill the object with enhanced capabilities not possible with only one material.

Abstract: A fastener is provided. In another aspect, a fastener is made of layers of material, a light curable material and/or multiple built-up materials. Another aspect uses a three-dimensional printing machine to emit material from an ink jet printing head to build up a fastener.

Abstract: There is provided a method of manufacturing a structural object, including using rapid prototyping technology, forming a structure body from a powder material whose main component is a water-soluble compound. The formed structure body is impregnated with an adhesive that provides adhesive function upon reaction with moisture contained in the structure body.

Abstract: A three dimensional printing apparatus is provided. The three-dimensional printing apparatus includes a tank, a rotatable platform, a light source module and a controller. The rotatable platform is elevatably disposed above the tank, and the light module is disposed under the tank. When the controller controls the rotatable platform elevating to a height along an axis direction, the controller controls the rotatable platform rotating a plurality of rotating angles in sequence around the axis direction and controls the light source module irradiating liquid-formation material, so as to sequentially solidify a plurality of object sections of a single layer object.

Abstract: A method for printing a three-dimensional part with an additive manufacturing system, comprising printing the three-dimensional part in a layer-by-layer manner along a printing axis in the additive manufacturing system, printing a scaffold in a layer by layer manner along the printing axis along with the printing of the three-dimensional part, and bracing the three-dimensional part laterally relative to the printing axis with the scaffold while printing the three-dimensional part.

Abstract: Systems and methods for assembling a skin of a composite structure are disclosed herein. The methods include operatively attaching a charge of composite material to a flexible substrate to define an initial conformation for a composite-substrate assembly and locating the composite-substrate assembly and a layup mandrel proximal to one another. The methods further include pressing the composite-substrate assembly against an outer surface of the layup mandrel to deform the composite-substrate assembly to a final conformation. The methods also include affixing the charge of composite material to the outer surface of the layup mandrel and releasing the charge of composite material from the flexible substrate while retaining the charge of composite material on the outer surface of the layup mandrel. The systems include the flexible substrate, the layup mandrel, and an assembly deformation structure that is configured to press the composite-substrate assembly against the outer surface of the layup mandrel.

Abstract: Anisotropic thermal energy guiding shells and methods for fabricating thermal energy guiding shells are provided. An anisotropic thermal energy guiding shell includes an interior volume defined within the anisotropic thermal energy guiding shell, a plurality of thermally conductive fibers, and at least one component attachment region. The plurality of thermally conductive fibers are arranged to guide thermal energy received by the anisotropic thermal energy guiding shell non-uniformly relative to the at least one component attachment region according to a thermal energy management objective. A method for fabricating a thermal energy guiding shell includes forming a composite fabric of thermally conductive fibers, impregnating the composite fabric of thermally conductive fibers with a resin, curing the impregnated composite fabric of thermally conductive fibers, and forming the impregnated composite fabric of thermally conductive fibers into the thermal energy guiding shell.

Abstract: According to a molding method for a fiber reinforced composite material, a cavity forming surface 13 of a second mold 12 with a recessed portion 14 for molding a thick portion is brought into contact with a fiber reinforced composite material 15. The fiber reinforced composite material 15 is heated in a state in which the temperature of the cavity forming surface 13 is higher than that of a cavity forming surface 11 of a first mold 10. After that, the first mold 10 and the second mold 12 are closed with a pressure to the fiber reinforced composite material 15 so as to pass the fiber reinforced composite material 15 into the recessed portion 14. This can integrally mold the thick portion with the main body of a molded component.

Abstract: Device for embedding an insert into a rubber profiled element in a given direction, is provided herein. The device includes: at least one means for feeding a thread continuously, a moving support capable of moving on a structure in a rectilinear reciprocating movement between a raised position and a lowered position, at least one hollow needle having a channel of longitudinal axis XX? inside which the thread is able to run, which needle is fixed by one of its ends to the base of the moving support and has at its other end a tip capable of penetrating said rubber profiled element, and a cutting means arranged on the support, having a blade capable of cutting off the thread.

Abstract: A method for producing an optical substrate includes: a step of preparing a long film-shaped mold having a concave-convex pattern surface having a concave-convex pattern; a step of forming a coating film made of a sol-gel material on the concave-convex pattern surface of the film-shaped mold; a step of adhering the coating film, which is formed on the concave-convex pattern surface of the film-shaped mold, to a substrate by arranging the concave-convex pattern surface of the film-shaped mold on which the coating film made of the sol-gel material is formed to face the substrate and by pressing a pressing roll against a surface of the film-shaped mold on a side opposite to the concave-convex pattern surface; a step of releasing the film-shaped mold from the coating film; and a step of curing the coating film adhered to the substrate.

Abstract: A method includes: a main body processing step of forming a lens main body having the concave lens surface; a molding step of coating a molding resin on the concave lens surface, pressing a microstructure forming mold, having a molding surface portion transferring the reflection preventing part formed on the surface of a deformable base body part thereof, against the concave lens surface, and curing the molding resin; and a mold release step of exerting a moment of a force relating to the surface top of the molding surface portion so as to deform the base body part to gradually separate the microstructure forming mold from an outer peripheral side thereof in a direction in which the concavo-convex shape of the reflection preventing part extends, thereby performing mold release.

Abstract: Biocompatible materials may be configured into any number of implantable medical devices including intraluminal stents. The biocompatible material may comprise metallic and non-metallic materials in hybrid structures. In one such structure, a device may be fabricated with one or more elements having an inner metallic frame that is not degradable with an outer shell formed from a polymeric material that is biodegradable by extrusion blow molding. Additionally, therapeutic agents may be incorporated into the microstructure or the bulk material.

Abstract: The tire vulcanizer is provided with an unloading device. The unloading device removes a vulcanized tire that has been vulcanized in the main body of the vulcanizer and conveys same to a cooling position at which the vulcanized tire is cooled, and conveys the vulcanized tire that has been cooled at the cooling position to a discharge position for transfer to an exporting device for discharging the vulcanized tire. The unloading device is provided with a support section capable of supporting the vulcanized tire, a rotational movement section for rotating the support section in a plane, and a linear movement section for moving the support section linearly.