Class / Patent application number | Description | Number of patent applications / Date published |
264299000 |
Shaping against forming surface (e.g., casting, die shaping, etc.)
| 1143 |
264241000 |
To produce composite, plural part or multilayered article
| 1056 |
264293000 |
Deforming the surface only
| 238 |
264280000 |
Reshaping running or indefinite-length work
| 72 |
264294000 |
Plural sequential shaping or molding steps on same workpiece
| 48 |
264297100 |
Forming plural articles
| 40 |
264291000 |
Stretching or stretch forming
| 36 |
264240000 |
Separately introducing reacting materials into mold
| 6 |
264339000 |
Bending or twisting of work | 5 |
20090065977 | PROCESS, AND APPARATUS, FOR PRODUCING REINFORCING FIBER MOLDING - A method of forming, on a strip-shaped laminate of multiple reinforcing fiber sheets superimposed one upon another, two flexures with respect to the cross-section configuration thereof, wherein in the forming of the two flexures with the use of two flexure forming dies independent from each other, respectively, the two flexure forming dies are arranged so that the relative distance of the two flexure forming dies is changeable in the direction perpendicular to the longitudinal direction of the strip-shaped laminate. This method can be effectively utilized in the production of a reinforcing fiber molding with changing of the distance between the two flexures namely, width of web portion or gauge between two flange portions from the strip-shaped laminate, or the production of fiber reinforced resin (FRP) molding therefrom. | 03-12-2009 |
20100140848 | PROCESS AND DEVICE FOR BENDING A SHEET OF SYNTHETIC MATERIAL FILLED WITH ALUMINA TRIHYDRATE - A process is provided for bending a board in synthetic material filled with more than 20% by weight of alumina trihydrate in a methyl methacrylate matrix: a section of the board is heated so that it can be bent; the section to be bent is bent while holding the convex upper surface of the board such that it does not become elongated. Also provided are a device for implementing such a process, and a bent board obtained by such a process. | 06-10-2010 |
20150091214 | Method for Bending Thermoplastic Pipes - A method for producing a bent pipe from thermoplastic material with end cross-sections, central points of which have in relation to one another a positional tolerance on the basis of LN xy/JAR xy/FAR xy in relation to one another. A straight pipe element is introduced into a tool and a portion of the straight pipe element is heated that is located in the bending region to a temperature which lies above a glass transition temperature of the thermoplastic material by a first temperature value. The straight pipe element is bent about the heated bending region of the tool by a freely selectable bending angle, which has a spatial alignment in an XYZ system of coordinates that is fixed with respect to the pipe. The pipe is then cooled below the glass transition temperature by a second temperature value. | 04-02-2015 |
20150289918 | Sterile-Packaged Disposable Contouring Tool Systems for Medical Implants and Methods for Contouring Medical Implants - Systems and methods contour a medical implant and provide a first tool, a second tool and a medical implant, wherein each of the first tool, the second tool and the medical implant are individually sterilized and packaged. After unpackaging the sterile first tool, the sterile second tool and the sterile medical implant, a first fixed portion of the sterile medical implant is inserted into, and held by, a first channel of the first tool. A second fixed portion of the sterile medical implant is inserted into, and held by, a second channel of the second tool. The sterile first tool is moved relative to the sterile second tool to apply deformation forces to the at least a portion of the sterile medical implant for contouring the sterile medical implant at a deformation portion of the sterile medical implant, located between the sterile first and second tools. | 10-15-2015 |
20160375626 | DEVICE AND METHOD FOR SHAPING A SEMI-FINISHED FIBER PRODUCT - A device for shaping a semi-finished fiber product for manufacturing a C-shaped or I-shaped former, and including clamping mechanisms and a forming tool. Each clamping mechanism has a first and a second clamping element and together they hold a semi-finished fiber product along two longitudinal and opposite edges. The clamping elements and forming tool move in a coupled manner between starting and end positions. During this movement, the longitudinal edges of the semi-finished fiber product are transformed into a curved shape, wherein a length of one of the longitudinal edges of the semi-finished fiber product does not change and a length of the other longitudinal edge becomes greater. During the movement, the forming tool is transformed into a curved shape and guided relative to the clamping elements against the semi-finished fiber product such that the semi-finished fiber product is deep drawn over the forming tool. | 12-29-2016 |
Entries |
Document | Title | Date |
20080203613 | Apparatus and Method For Making Product Having Various Shapes - The present invention relates to an apparatus and a method for making products having various shapes. The apparatus is for making a product by shaping or processing work piece using a relative movement between the work piece and a tool. The apparatus is provided with a work piece support on which the work piece is located, a revolution-rotation driving device including a first axis and a second axis in parallel with the first axis and revolving around the first axis, the device revolving the work piece support around the first axis and rotating the work piece support on the second axis; and a tool support for supporting the tool in such a manner that the tool is maintained in a predetermined position with respect to the first axis. The revolution-rotation driving device further includes a revolution-radius adjustment for adjusting so a distance between the first axis and the second axis. Further, the revolution-rotation driving device maintains a direction of the revolution of the work piece support and a direction of the rotation of the work piece support in a same direction and allows a ratio of the number of revolution of the work piece support to the number of rotation of the work piece support to be maintained in a constant ratio of n (natural number):1. | 08-28-2008 |
20080246181 | Polymer Compositions, Method of Manufacture, and Articles Formed Therefrom - A composition comprises, based on the total weight of the composition: from 10 to 80 wt. % of a modified polybutylene terephthalate copolymer that (1) is derived from polyethylene terephthalate component selected from the group consisting of polyethylene terephthalate and polyethylene terephthalate copolymers and (2) has at least one residue derived from the polyethylene terephthalate component; from 10 to 80 wt. % of a polycarbonate; from 0 to 20 wt. % of an impact modifier; from 1 to less than 25 wt. % of a reinforcing filler; from 0.1 to less than 2.5 wt. % of a fibrillated fluoropolymer; from 0 to 5 wt. % of an additive selected from the group consisting of antioxidants, mold release agents, colorants, quenchers, stabilizers, and combinations thereof. The composition has a heat deflection temperature of at least 110° C., measured in accordance with to ASTM D648 on 3.2 mm thick molded bars at 0.455 MPa. | 10-09-2008 |
20090008818 | Method for Fitting a Bumper Shell Around Light Units Stay for a Bumper Shell and Headlight Unit for Motor Vehicles - The present invention relates to a shaping method of shaping a bumper skin of plastics material around at least two light units of a motor vehicle, with the help of reinforcement comprising a certain number of portions, the skin having zones for covering the various portions of the reinforcement, each portion of the reinforcement including means for fastening it to one of the light units in a predetermined position. The portions of the reinforcement are initially fastened to the corresponding zones of the bumper skin, and then the portions of the reinforcement are assembled to the light units. The present invention also provides reinforcement and a front unit for a vehicle. | 01-08-2009 |
20090091059 | MAKING FOOD SERVING TRAY ASSEMBLY HAVING DISPOSAL OPENING WITH DEEP SERVING WELLS - A method of making a food serving tray assembly comprising the step of molding a hand portable container such that the container has a serving platter and a receptacle platter. The serving platter includes a disposal opening and serving wells for receiving food items. The receptacle platter and serving platter releasably couple to one another in a serving configuration and a transport configuration. The serving platter also has an outer peripheral wall and a plurality of dividing walls defining and separating adjacent serving wells; and the serving platter is generally received within the outer peripheral wall of the receptacle platter with the bottom of the receptacle platter and the dividing walls of the serving platter collectively isolating the wells from one another when the food serving tray assembly is in the transport configuration. | 04-09-2009 |
20100007047 | Recycled thermoplastic composition comprising waste thermoset material and methods of making - The present invention provides methods for making shapeable composite materials or shaped articles from recycled materials comprising forming a crumb slurry by, in any order, increasing the particle size of a composition comprising white water waste from one or more emulsion or dispersion polymer and combining the white water waste polymer with one or more waste thermoset material, preferably, ground tire rubber (GTR), and, then processing the combined material wet or dry as a thermoplastic to form the composite material or article. Additionally, shaped articles and composite materials can be made from substantially all recycled waste materials, such as white water waste from acrylic or vinyl polymer emulsions and waste rubber vulcanizates. The composite materials can consist essentially of reshapeable materials, i.e. without crosslinking agents, thermosettable compositions or compatibilizers to provide reshapeable or recyclable articles. | 01-14-2010 |
20100109189 | CONTINUOUS FLEXIBLE SUPPORT STRUCTURE ASSEMBLY - A surface support structure is provided with at least one cell having a plurality of upright walls. A first wall of the plurality of upright walls has a recessed portion forming at least a portion to allow extension and contraction in multiple directions of the at least one cell. The plurality of upright walls of the at least one cell define a perimeter such that the recessed portion extends towards a second wall of the plurality of upright walls and is within the perimeter. | 05-06-2010 |
20100117261 | Method of making a plastic bench top - The method of making a plastic bench top is a method for manufacturing bench tops having a U-shaped channel formed by flanges depending from opposite sides of an elongated planar member. The bench top is mounted on pedestals, legs or the like. In general, the method includes forming a fold line by machining or by heating along the lateral edges of the elongated planar member to define flanges, folding the flanges so that the flanges are orthogonal to the planar member, and welding or fusing the joint, if necessary. Alternatively, discrete flange members may be heated simultaneously with the elongated lateral edges of the planar member, the heating element is withdrawn from between the flange and the planar member, and the flange is butted against the longitudinal edge to form a butt weld. | 05-13-2010 |
20110291322 | METHOD OF REDUCING ACETALDEHYDE IN POLYESTERS, AND POLYESTERS THEREFROM - Acetaldehyde production in a polyester may be reduced by using a formulation which comprises an acetaldehyde scavenger and a phosphorous additive. The two materials appear to act synergistically in reducing acetaldehyde production. Preferred formulations comprise anthranilamide and phosphorous acid and are used in combination with aluminium or titanium catalysed PET resins. | 12-01-2011 |
20120119414 | PROCESS FOR MANUFACTURING A SHAPED ARTICLE FROM A COMPOSITE MATERIAL COMPRISING A SOLID FILLER AND A THERMOPLASTIC BINDER - The present invention relates to a process for manufacturing a shaped article from a composite material comprising a solid filler and a thermoplastic binder, said process comprising the following subsequent steps: (a) feeding a solid filler and a thermoplastic binder to a kneading device; (b) mixing the solid filler and the thermoplastic binder in the kneading device, wherein the pressure exerted on the mixture of the solid filler and the thermoplastic binder is in the range of about 100 kPa to about 1500 kPa to obtain a composite material; (c) forming the composite material as obtained in step (b) into a shaped article; and (d)cooling the shaped article as obtained in step (c). The shaped article is preferably a slab which can very suitable be used in the decoration of floors, ceilings, wall panels, vanity tops, kitchen work surfaces, kitchen tops, bathrooms, internal and external cladding and other two-dimensional and three-dimensional shapes by extrusion and or injection moulding techniques. | 05-17-2012 |
20120241998 | PROCESS FOR PRODUCING ALUMINUM TITANATE-BASED CERAMICS FIRED BODY - The present invention aims to provide a process for producing an aluminum titanate-based ceramics fired body wherein a cracking of a ceramics shaped body during a degreasing step is suppressed and also sufficient mechanical strength for handling is provided to the ceramics shaped body for such a case of the transfer from a degreasing step to a firing step. The present invention is a process for producing an aluminum titanate-based ceramics fired body comprising a shaping step of obtaining a ceramics shaped body by shaping a starting material mixture containing inorganic components including an aluminum source powder and a titanium source powder and organic components; a degreasing step for removing the organic components contained in the ceramics shaped body in atmosphere with an oxygen concentration of not higher than 0.1% and under the temperature condition that the highest temperature is not lower than 700° C. and not higher than 1100° C.; and a firing step for firing the ceramics shaped body under the temperature condition that the highest temperature is not lower than 1300° C.; in this order, wherein the atmosphere at a heating step to 1300° C. during the firing step has an oxygen concentration of not lower than 1% and not higher than 6%. | 09-27-2012 |
20130069271 | DYNAMIC STRAIN HARDENING IN POLYMER NANOCOMPOSITES - The present invention provides methods of strengthening composites. In some embodiments, such methods generally comprise a step of applying a dynamic stress to the composite in order to increase at least one of the stiffness or strength of the composite. In some embodiments, the composite comprises: a polymer matrix; nanomaterial fillers; and an interphase between the polymer matrix and the nanomaterial fillers. In some embodiments, the stiffness or strength of the composite increases permanently in response to the applied stress. In some embodiments, the increase in the stiffness or strength of the composite may be associated with an increase in the storage modulus of the composite, a decrease in the loss modulus of the composite, and a decrease in the loss tangent of the composite. In some embodiments, the applied stress results in a rearrangement of the interphase. | 03-21-2013 |
20130249140 | METHOD OF PRODUCING A SOLID PREPARATION - A method for producing a solid preparation containing a compound represented by the formula (I) below or a pharmacologically acceptable salt thereof, which includes a step wherein a composition containing the compound represented by the formula (I) below or a pharmacologically acceptable salt thereof is mixed, while applying a mechanical stress to the composition. The compound of the formula (I) is as follows: | 09-26-2013 |
20140252675 | MEDICAL DEVICE FABRICATION PROCESS INCLUDING STRAIN INDUCED CRYSTALLIZATION WITH ENHANCED CRYSTALLIZATION - Methods of fabricating a polymeric implantable device, such as a stent, with improved fracture toughness through annealing a polymer construct below the glass transition temperature of the polymer of the construct prior to a deformation step are disclosed herein. The deformation of the construct induces crystallization in the polymer construct through strain-induced crystallization. The annealing of the polymer construct accelerates the crystallization induced during the deformation and results in an increase in crystallite density with smaller crystallites as compared to deformation of a tube that has not been annealed. A stent scaffolding is then made from the deformed tube. | 09-11-2014 |
20140284839 | DEVICE FOR PRODUCING A THREE-DIMENSIONAL OBJECT USING A PRESSURE GENERATING UNIT - The invention relates to a device for producing a three-dimensional object ( | 09-25-2014 |
20160167312 | ADDITIVE MANUFACTURING OF EMBEDDED MATERIALS | 06-16-2016 |