Abstract: A fabrication method of nanoparticles is provided. A substrate having a plurality of pillar structures is provided and then a plurality of ring structures is formed to surround the plurality of the pillar structures. The inner wall of each ring structure surrounds the sidewall of each pillar structure. A portion of each pillar structure is removed to reduce the height of each pillar structure and to expose the inner wall of each ring structure. The ring structures are separated from the pillar structures to form a plurality of nanoparticles. Surface modifications are applied to the ring structures before the ring structures are separated from the pillar structures on the substrate.

Abstract: An improved bead (10), for use on a string or a line (13), that allows addition to or removal from the string transversely rather than axially, obviating the task of threading the bead with the string. Such a bead finds great benefit when used as a fishing bead, sinker or float, but may be found useful in many other applications.

Abstract: The invention includes methods of forming reticles configured for imprint lithography, methods of forming capacitor container openings, and methods in which capacitor container openings are incorporated into DRAM arrays. An exemplary method of forming a reticle includes formation of a radiation-imageable layer over a material. A lattice pattern is then formed within the radiation-imageable layer, with the lattice pattern defining a plurality of islands of the radiation-imageable layer. The lattice-patterned radiation-imageable layer is utilized as a mask while subjecting the material under the lattice-patterned layer to an etch which transfers the lattice pattern into the material. The etch forms a plurality of pillars which extend only partially into the material, with the pillars being spaced from one another by gaps. The gaps are subsequently narrowed with a second material which only partially fills the gaps.

Abstract: The present invention relates to an abrasive product and to a method of manufacturing same. Such an abrasive product comprises a structured abrasive coating provided on an upper side (6) comprised by the abrasive product. Herein, abrasive grains (8) and glue (7) are molded on a backing such that the upper side of the abrasive product is provided with a three-dimensional product-specific pattern. This pattern is created by said abrasive grains and glue, which constitute an individual composite grain (9). In generating the pattern, a special computer program is utilized in a computer program product for placing said composite grains randomly over the upper side of the abrasive product. The invention also relates to a casting mould with which the thus obtained pattern may be transferred onto the upper side of the abrasive product. The invention further comprises an arrangement for manufacturing said casting mould.

Abstract: A method of forming a mold for use with a baseball or softball glove comprising covering a substantial portion of the inner surface of the glove with a thin sheet of flexible material, applying a forming material to the flexible material such that the flexible material generally conforms to the shape of the inner surface of the glove, removing the hardened forming material from the glove, and removing the flexible material from the glove. The hardened forming material can be a mold for the glove, or can be used as a form to manufacture glove molds. The glove mold can be placed in the glove when it is not in use and secured in position by a strap or other suitable mechanism.

Abstract: A method of casting a product includes the steps of: creating a finished photopolymer mould; introducing liquid into the mould; hardening the liquid; and removing the photopolymer mould. A casting mould and a method of making a casting mould, are also disclosed.

Abstract: Provided is a nanowire manufacturing method, comprising forming a plurality of grid patterns on a substrate, forming a nanowire on the grid patterns, and separating the grid pattern and the nanowire. According to the present invention, the width and height of the nanowire can be adjusted by controlling the wet-etching process time period, and the nanowire can be manufactured at a room temperature at low cost, the nanowire can be mass-manufactured and the nanowire with regularity can be manufactured even in case of mass production.

Abstract: A method for use in producing a patch having a number of projections thereon. The method includes providing a distribution member and filling material on a mold surface, the mold including a number of cavities extending from the mold surface for defining the patch projections, filling the cavities with filling material, at least in part by urging filling material from the distribution member into the cavities, causing the filling material to solidify and separating the solidified filling material and the mold to thereby form the patch.

Abstract: The present invention relates to a method of fabricating a mold core (5) for making hollow parts (11) based on a composite material including fibers, fabrics, or textiles together with a resin, the method consisting in mixing a filler material (1) and a binder material (2) in order to obtain a uniform mixture of materials, and in solidifying, compacting, and shaping the resulting mixture in order to constitute said core, the method being characterized in that it further consists in introducing into the mixture at least one complementary material (3) that is expandable under the effect of heat or by applying another physical or chemical principle, and in mixing said materials (1, 2, 3) in order to obtain a uniform distribution of the complementary material (3) in the mixture.

Abstract: An imprint method according to this embodiment includes preparing a mold having a recessed portion, filling the recessed portion with a mold non-reactive material, pressing the mold against a resist which is applied on a base material, curing the resist in a state that the mold is pressed, and separating the mold from the base material. The mold non-reactive material is a material which does not chemically react with a material of the mold. By curing of the resist, the resist and the mold non-reactive material are coupled. When the mold is separated from the base material, the resist and the mold non-reactive material are left on the base material.

Abstract: A curing agent composition for a water-soluble phenol resin used to produce a mold, which comprises a branched ester compound that is derived from a carboxylic acid having a branched chain, and an alcohol, and has 5 to 13 carbon atoms.

Abstract: A laminate nanomold includes a layer of perfluoropolyether defining a cavity that has a predetermined shape and a support layer coupled with the layer of perfluoropolyether. The laminate can also include a tie-layer coupling the layer of perfluoropolyether with the support layer. The tie-layer can also include a photocurable component and a thermal curable component. The cavity can have a broadest dimension of less than 500 nanometers.

Abstract: A system and method for producing customized items is provided. The system includes a computer interface, an extruder and a mold supported by a movable support unit, all in communication with a control unit. The extruder and support unit are activatable by the control unit to produce a customized item in accordance with the shape of the mold and design parameters associated with the customized item onto the mold. The extruder may be configured to be movable and to extrude material having elastic properties onto the mold in a single continuous extrusion.

Abstract: A fiber comprises a composition including a poly(phenylene ether) having less than or equal to 240 parts per million by weight of hydroxyl groups associated with ethylene bridge groups and less than or equal to 800 parts per million by weight of hydroxyl groups associated with rearranged backbone groups, both amounts based on the weight of the poly(phenylene ether). Fiber of low denier can be formed from this composition. The fiber can be formed by melt spinning.

Abstract: The present application relates to a hydrogen ion transport membrane, which is formed by using a porous thin film having a plurality of holes which are regularly aligned, a membrane for generating hydrogen, and a method for manufacturing the hydrogen ion transport membrane and the membrane for generating hydrogen.

Abstract: A preferred method of the invention introduces organosilicon polymer into the reservoir of a mold with trenches defining a negative mold impression of a feature that has a high aspect ratio in fluid communication with the micro-dimensioned reservoir. The mold is preferably coated with a low-stiction coating. The polymer is moved via capillary action into the negative mold from the reservoir. The polymer is cured. The polymer is then released from the mold. Preferably, the polymer is soaked in a releasing solution prior to release. Preferably, the polymer is released by gripping cured polymer in the reservoir and gently peeling the cured micropolymer from the mold. In preferred embodiments, the polymer is poly-dimethyl-siloxane (PDMS). A preferred structure formed by methods of the invention is polymer microbeam in a liquid having a length of one to a few millimeters and a stiffness of k<0.1 pN/?m. Aerodynamic features can be created along with the beam.

Abstract: To provide a mold for nanoimprinting capable of accurately transcribing a fine concavo-convex structure, available at a low cost and having high durability, its production process, and processes for producing a molded resin having a fine concavo5 convex structure on its surface having the fine concavo-convex structure of the mold accurately transcribed, and a wire-grid polarizer, with high productivity. A mold 10 for nanoimprinting having on its mold surface a fine concavo-convex structure comprising a plurality of grooves 14 formed in parallel with one another at a constant pitch, which comprises a mold base 12 made of a resin having on its surface a 10 fine concavo-convex structure to be the base of the fine concavo-convex structure, a metal oxide layer 16 covering the surface having the fine concavo-convex structure of the mold base 12, and a release layer 18 covering the surface of the metal oxide layer 16, is used.

Abstract: The disclosure relates generally to mold compositions comprising calcium aluminate and calcium titanate. The disclosure also relates to methods of molding and the articles so molded using the mold compositions. More specifically, the disclosure relates to calcium aluminate/calcium titanate mold compositions and methods for casting titanium-containing articles, and the titanium-containing articles so molded.

Abstract: The present invention provides a method of producing an organ model comprising; an outer-shape body forming step in which an outer-shape body 120 having regions 16, 17 to be a hollow portion and a structural wall of the organ model respectively is formed by irradiating curing light and cure the photocurable mold resin 12 and support resin 13 supporting the mold resin based on photographed data of a human organ, a mold shell forming step in which a mold shell 10 having outer and inner shell portions 12A, 12B covering outer and inner surfaces of the organ model respectively is formed by removing the support resin 13 from the outer-shape body 120, a filling step in which a space 15 between the outer and inner shell portions 12A, 12B is filled with a flexible injection molding material 20, and a removing step for removing the mold shell 10.

Abstract: The present invention provides a nano-imprinting resin stamper including a micro structure layer on a transmissive support basal material, the micro structure layer being formed of a polymer of a resin composition that contains a silsesquioxane derivative as a major constituent having a plurality of polymerizable functional groups, another polymerizable resin component having a plurality of polymerizable functional groups and different from the silsesquioxane derivative, and a photopolymerizable initiator, in which the content percentage of the photopolymerizable initiator is equal to or more than 0.3 mass % and equal to or less than 3 mass % relative to a total mass of the silsesquioxane derivative and the polymerizable resin component, and the micro structure layer permits equal to or more than 80% of light to pass therethrough at a wavelength of 365 nm.

Abstract: This invention relates to a resin preparable by reaction of a phenol/formaldehyde novolak with tetraethyl orthosilicate in a mass ratio above 28:1, wherein the phenol of the phenol/formaldehyde novolak is substituted or unsubstituted hydroxybenzene or a mixture of two or more such phenols, and to a particulate material coated with said resin. Said particles can be used e.g. in the shell molding process for the production of shell molds and shell cores; and as proppants for use in the hydraulic fracturing process.

Abstract: A mold for producing a variety of fenestration members having different predetermined lengths is disclosed. Generally, the mold has a first lineal mold part that has an extended length and a second lineal mold part also having an extended length. The mold may also have mold end parts that are adapted to form end features of the fenestration member. In use, the first lineal mold part and the second lineal mold part fit together to define a profile. The first and second mold end parts can be positioned in a range of positions to define the lengths of a variety of different molded fenestration members.

Abstract: The various embodiments herein provide a prefabricated mineral composite panel and a method for producing the prefabricated mineral composite panel for constructing the internal walls and the lateral walls in a building. The method comprising the steps of: preparing and assembling a cast, fixing a mesh in the cast, pouring a prefabricated mineral composite into the cast, smoothening and flattening a top surface of the cast, disassembling the cast to withdraw a semi-dried prefabricated mineral composite panel, placing the semi-dried prefabricated mineral composite panel in a drying room for drying the prefabricated mineral composite, removing the dried prefabricated mineral composite panel from the drying room and packaging the prefabricated mineral composite panel.

Abstract: The present disclosure relates to mold components and imprint lithography techniques applied on the basis of organic mold materials in order to form polymer microstructure elements. It has been recognized that adapting surface characteristics of at least one mold component may significantly enhance performance of the lithography process, in particular with respect to suppressing residual polymer material, which in conventional strategies may have to be removed on the basis of an additional etch process.

Abstract: The present invention provides a method for manufacturing a metamaterial dielectric substrate, and a metamaterial dielectric substrate manufactured using the same. According to the metamaterial dielectric substrate and the manufacturing method thereof of the present invention, an arrangement rule of pin-shaped articles in a pin-shaped array may he predetermined during the manufacture, such that the formed metamaterial dielectric substrate has pinhole-shaped arrays arranged in a specific rule. Therefore, the metamaterial dielectric substrate may implement specific modulation functions on an electromagnetic wave such as electromagnetic wave divergence, convergence or deflection, thereby providing a more flexible design for function application of the metamaterial.

Abstract: Positive and negative stamp masters derived from UV curable ink molds comprising ultraviolet (UV) curable inks and methods for digitally preparing those stamp masters. In particular, the digitally prepared molds provide a method of printing micropatterns of fine variable features or images in a more efficient manner than the methods currently available.

Abstract: The variable hydraulic preform slurry non ionic or electrolyte carbon extrusion high wear-heat resistant parts press is utilized to manufacture process specified scientific formula liquid or gas mechanically refined and nanoparticle dispersion with or without ionic suspension element 1—carbon nanofoam CNFs extrusion high wear-heat resistant parts electronic component composite coils, composite windings, brushes, inductors, antinode couplers, electric rheostats, starters, motors, alternators, generators, ionic suspension element enhanced composite coils, composite windings, drawn, annealing, spun, coils, windings, wire, woven textile mesh, shielding, brushes, capacitors, battery cells, rheostats, electronic resistors, transformers, transducers, rectifiers, power supplies, heat sinks 2—carbon nanofoam CNFs extrusion high wear-heat resistant parts aerospace, automotive, and transportation brake calipers, rotors, pads, washers, spacers, bushings and 3—carbon nanofoam CNFs extrusion high wear-heat resistant parts

Abstract: The present invention discloses a method for enhancing hardness of a nanoimprint mold comprising following steps of: providing a male mold, composed of a first material, for imprinting a female mold and producing a nano structural pattern on the female mold, and the female mold composed of a second material, wherein the hardness of the first material is higher than the hardness of the second material; applying a nano-indentation technique to the female mold onto the female mold by a nano-indentation apparatus having a diamond array probe so as to enhance the surface hardness of the female mold; and impressing a substrate by the female mold with the nano structural pattern having the enhanced surface.

Abstract: The systems and methods described herein related generally to a device that enables the directional control of flow through an anatomical tract of the body. More particularly, the device described herein includes a valve from a plurality of projections. In some implementations, the projections are configured as flaps, posts, or any combination thereof. In some implementations, the device is implanted into a patient's esophagus to prevent gastroesophageal reflux disease. The plurality of projections allow flow into a patient's stomach while substantially preventing a backflow of undesired fluids from the patient's stomach to the patient's esophagus.

Abstract: The invention relates to a micromechanical part (11, 21, 31, 41, 51, 61) made of a single-piece material. According to the invention, the part has an elementary section formed of at least two secant and non-aligned segments so that one of the at least two segments forms the height (e3) of the micromechanical part (11, 21, 31, 41, 51, 61), the height being greater than the thickness (e1) of each segment. The invention also concerns the method of fabricating the part.

Abstract: The manufactured pieces are the ones both end surfaces thereof in the tire circumferential direction are cut from the pieces before cutting 1 and the pieces before cutting 1 have the cutting regions whose cross-sectional shapes in the tire width direction are the same at both ends of its circumferential direction. And in the cutting process of cutting the pieces for modifying the lengths in the circumferential direction from each of the pieces before cutting 1, in order that the length in the tire circumferential direction of each piece after cutting and that both of the end surfaces in the circumferential direction of the piece after cutting are included in the cutting regions, the cutting lines of each piece are set at different not less than two positions (a, a? and b, b?) in the tire circumferential direction and the pieces are cut by either one of the set cutting lines.

Abstract: Injection stretch blow molded (ISBM) articles containing a bio-based polymers and methods of forming the same are described herein. The method generally includes providing a propylene-based polymer; contacting the propylene-based polymer with polylactic acid to form a polymeric blend; injection molding the blend into a preform; and stretch-blowing the preform into an article.

Abstract: A method for forming a soft mold includes providing a master mold having at least one pattern thereon, forming pre-polymer layer on the master mold, applying water on the pre-polymer layer, hardening the pre-polymer layer to form a soft mold, removing water, and separating the soft mold from the master mold. A method for forming a pattern comprises forming a resist on an etching subject layer, providing a soft mold, disposing the soft mold on the resist, separating the soft mold from the resist to form the resist pattern, and etching the etching subject layer by using the resist pattern, wherein providing the soft mold comprises providing a master mold having at least one pattern thereon, forming pre-polymer layer on the master mold, applying water on the pre-polymer layer, hardening the pre-polymer layer to form a soft mold, removing water, and separating the soft mold from the master mold.

Abstract: An imprint lithography template having a photoactive coating adhered to a surface of the template. Irradiation of the photoactive coating promotes cleaning of the template by decomposition of organic material proximate the template (e.g., organic material adsorbed on the template). An imprint lithography system may be configured such that template cleaning is achieved during formation of a patterned layer on an imprint lithography substrate. Cleaning of the template during an imprint lithography process reduces down-time that may be associated with template maintenance.

Abstract: A resin molding is provided. A main body is comprised of 100 parts by weight of thermoplastic resin and 0.1 to 4 parts by weight of bright material having the aspect ratio of 30 to 50. A main body has a design surface formed with a groove. The lower limit of the depth of the groove is set to 0.3 mm and the upper limit of the depth of the groove is set to 0.5 mm.

Abstract: Provided is a method for manufacturing an injection-molded article, where the method is capable of obtaining a molded article having a high crystallinity while reducing the amount of flash generated and has excellent productivity. A polyarylene sulfide-based resin composition is injection-molded at a mold temperature of 100° C. or less using a mold on the inner surface of which a heat-insulating layer constituted of porous zirconia is formed. It is preferable that the heat-insulating layer is formed by a spraying method. Preferably, the heat-insulating layer has a thermal conductivity of 2 W/(m·K) or less. Preferably, the heat-insulating layer has a thickness of no less than 200 ?m.

Abstract: An image displaying device includes a background layer and a display layer. The display layer includes an inner surface and an outer surface. The inner surface is substantially smooth, and the outer surface includes a plurality of raised areas and recessed areas. The display layer has a first zone with a first thickness measured between the inner surface and a raised area and a second zone with a second thickness measured between the inner surface and a recessed area. The display layer also includes a coloring agent having a higher concentration in the first zone as compared to the second zone. The display layer has increased light transmissivity through the recessed areas and decreased light transmissivity through the raised areas such that a contrast of light transmissivity between the raised and recessed areas generates an image.

Abstract: A stamping apparatus for stamping a shading film includes a stamping head, at least one locking member and a sleeving ring. The sleeving ring defines an axial sleeving hole and includes a stamping portion formed on a distal end thereof and surrounding the axial sleeving hole. The sleeving ring is detachably sleeved on and locked to the stamping head via the at least one locking member. The stamping portion matches with the stamping head for cooperatively stamping the shading film.

Abstract: A mold for imprinting has a mold pattern for transferring a pattern to a processing object. A base layer having a predetermined base pattern is formed by imprinting on a thermoplastic resin, a thermosetting resin, a photo-curable resin, or the like, and a mold layer is formed in such a way that the mode pattern is shapened along a surface of the base pattern by a surface preparation technique, such as CVD, PVD, or plating.

Abstract: Disclosed herein is a dielectric microstructure with a substantially unit dielectric constant K for use in microelectromechanical systems.

Abstract: A weighing device comprises a plurality of weight sensors and at least one concrete deck. The weight sensors may be configured to determine a weight of an object. The concrete deck may be positioned on the weight sensors and may include a body, a first bulkhead, a second bulkhead, and a plurality of cables. The body may be formed from concrete. The first bulkhead may be positioned along a first end of the body. The second bulkhead may be positioned along an opposing second end of the body. The cables may be under tension and positioned within the body such that an outer surface of each cable is in direct contact with the concrete.

Abstract: An interlocking display module which may be removably coupled to an adjacent display module for creating a customizable storage system and method of making it. Each module is preferably formed through injection molding of ABS plastic into a rectangular solid shape with an open front and carries a projection (a dovetail in the preferred embodiment) on flanges on two of its sides (top and right side) while two other sides (bottom and left) carry a complementary recess on flanges, allowing one module to interlock with a similar module to form a customizable storage system. One use of such a storage system is for the storage and display of collectible items such as action figures, coins or stamps, model trains, toy soldiers or other toys.

Abstract: Inverted Nanocone Structures and Its Fabrication Process. The method of fabricating nanotextured structures includes making a master mold having an array of tapered structures to be replicated. The master mold is pressed into a curable polymer supported on a substrate and the polymer is cured. Thereafter, the mold is detached from the cured polymer to form the nanotextured structure.

Abstract: A condom including a polymeric sheath, and one or more features including a polymeric composition disposed thereon, the one or more feature optionally having a color different than that of the polymeric sheath, is disclosed. Apparatus and methods for manufacturing a textured condom are also disclosed.

Abstract: A method for producing a label for affixing to a syringe body, which label on both sides of an extension area comprises a first flat side and a second flat side, a first label region, which is wrappable about the syringe body, a second label region, which is joined to the first label region and which on the first flat side and/or the second flat side comprises a needle receiving device for a syringe needle for the protection from injuries through the syringe needle. The needle receiving device is produced into a receiving device region wholly or partly forming the needle receiving device by applying a build-up layer onto a carrier substrate of the second label region and moulding the build-up layer on the carrier substrate.

Abstract: A hollow turbine engine component with complex internal features can include a first region and a second, high resolution region. The first region can be defined by a first ceramic core piece formed by any conventional process, such as by injection molding or transfer molding. The second region can be defined by a second ceramic core piece formed separately by a method effective to produce high resolution features, such as tomolithographic molding. The first core piece and the second core piece can be joined by interlocking engagement that once subjected to an intermediate thermal heat treatment process thermally deform to form a three dimensional interlocking joint between the first and second core pieces by allowing thermal creep to irreversibly interlock the first and second core pieces together such that the joint becomes physically locked together providing joint stability through thermal processing.

Abstract: A method for processing a housing for devices such as electronic devices. A hairline is formed on an inner surface of an inmold mold. In addition, a hairline is formed on an inmold film. The inmold film is positioned inside the inmold mold and a housing representing the hairline of the inmold mold and the hairline of the inmold film together is formed using inmold injection molding.

Abstract: A mold is disclosed, which is capable of producing a nanoimprint film without a problem of clogging of irregularities of the mold with a resin material. A method for producing the mold and a method for producing a nanoimprint film using the mold are further disclosed. In an embodiment, the mold includes: a first surface having a nanostructure including plural recesses spaced at an interval of less than 1 ?m between bottom points of adjacent recesses; and at least two second surfaces substantially not having the nanostructure, wherein the first surface is coplanar with the at least two second surfaces and is positioned between two second surfaces.

Abstract: A method to produce artificial rock which includes the following steps: (1) Lay down a piece of plastic film as a working surface. Prepare a mold with plastic bags, used bottles, containers and papers. Tape the outside of the plastic bag with adhesive tape to secure all the contents. Put extra plastic bags for extra protection for the inside stuffing containers. (2) Apply the pre-mixed cement mixture on top of the mold. (3) Spray the article with color paint. (4) Obtain a finish product. The method is an environmental way to turn household unwanted items into useful household and commercial building decorations and containers which can largely reduce the cost of production and simplified the production process. The stuffing bottles, containers and papers can be arranged randomly into different shapes and sizes according the actual demands and application requirements. The products itself can also be recycled into building material.

Abstract: Molds and processes that permit high-speed, mass production of retaining wall blocks having patterned or other processed front faces, as well as retaining wall blocks formed by such processes. The invention permits the front face of the block to be impressed with a pattern or otherwise directly processed, to allow the formation of pre-determined block front faces, while at the same time facilitating high-speed, high-volume production of blocks. A mirror image of the desired pattern can be created on a stripper shoe by selecting a desired three-dimensional surface from a naturally occurring or man made object and digitally scanning the selected three-dimensional pattern to create scanned data. The scanned data can then be used to machine a face of the stripper shoe that is the mirror image of the selected pattern.