Mur
Christian Mur, Terfens AT
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20140233236 | GROUND COMPOSITE BODY COMPRISING A GLASS BODY AND A PLASTIC - A decorative composite body includes a glass body and a plastic partly enclosing the glass body, wherein part of the surface of the glass body is arranged on the outside of the decorative composite body, wherein at least two adjacent glass and plastic areas arranged on the outside of the composite body are ground in the composite state, wherein areas of the glass body adjacent to the plastic are at least partly mirrored. | 08-21-2014 |
Jean-Claude Mur, Plessis Brion FR
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20110221104 | Process for manufacturing a fuel tank - Process for manufacturing a plastic fuel tank equipped with a component, by molding a parison using a mold comprising two cavities and a core, the process comprising the mounting of a component around a needle or an oblong object attached to the core, the displacement of the needle or oblong object so as to deform the parison and pierce an opening into it, the needle or oblong object carrying the component with it in order to position the component in the opening, and the withdrawal of the needle/oblong object, leaving the component lodged in the opening. | 09-15-2011 |
Jean-Claude Mur, Le Plessis Brion FR
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20110233829 | Process and die for manufacturing a plastic hollow body - A process for manufacturing a plastic hollow body by molding a molten plastic parison, which is extruded vertically through a die, in a mold comprising two complementary cavities, characterized in that the die is adjusted so that the shape of the parison matches that of the mold cavities. A die suitable for such a process. | 09-29-2011 |
Jean-Claude Mur, Choisy Au Bac FR
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20130140730 | PROCESS AND EQUIPMENT FOR MANUFACTURING A PLASTIC HOLLOW BODY FROM TWO SHEETS - A process for manufacturing a plastic hollow body by molding two sheets of molten plastic in a mold including two cavities, the process including: a) two molten plastic sheets are manufactured by extrusion of at least one stream of molten plastic and transverse cutting thereof; b) these sheets are introduced between the mold cavities; c) the mold is closed and the hollow body is manufactured by conforming the two sheets to the mold cavities; d) the hollow body thus obtained is removed from the mold; e) all of operations a) to d) are repeated to manufacture another hollow body from two new sheets; and before, during, or after the transverse cutting operation, the lower portion of the two new sheets is cooled using a specific device that makes possible a local cooling of the sheets in the lower portion. | 06-06-2013 |
Jean-Philippe Mur, Mandelieur-La-Napoule FR
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20140146174 | METHOD AND SYSTEM FOR THE REAL-TIME DETERMINATION OF SIGNALS TO BE SUMMED FROM AMONG A SET OF RECEIVED SIGNALS - A method is provided for the real-time determination of signals to be summed from signals representative of an image portion which are respectively received from detectors belonging to the same optical sensor, the detectors being organized in a matrix formed by rows and columns, the signals to be summed being received on the same column. The method also determines the time during which the detectors must acquire the signals to be summed. The method determines a value representative of a modulation transfer function of at least one lens and/or at least one mirror placed upstream of the optical sensor, and a signal-to-noise ratio of the image portion, based on a location of one of the detectors and on a signal representative of an image portion obtained from the detectors. This representative value is dependent on the number. The method searches for the number and the time maximizing the representative value. | 05-29-2014 |
Pierre Mur, Crolles FR
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20080318366 | METHOD FOR PRODUCING A SUPPORT FOR THE GROWTH OF LOCALISED ELONGATED NANOSTRUCTURES - The invention relates to a method for producing a support comprising nanoparticles ( | 12-25-2008 |
20090221447 | NANOSTRUCTURED DEVICE - The invention concerns a nanostructured device ( | 09-03-2009 |
20090243048 | METALLIC NANOCRYSTAL ENCAPSULATION - A method of forming a device includes forming protective shells about metallic nanocrystals supported by a substrate. The metallic nanocrystals having protective shells are encapsulated with a layer formed with process parameters that are not compatible with the integrity of unprotected metallic nanocrystals. | 10-01-2009 |
20090246510 | METALLIC NANOCRYSTAL PATTERNING - A device and method include forming a mask on a substrate supporting a plurality of metallic nanocrystals such that a portion of the metallic nanocrystals is exposed. Protective shells are formed about the exposed metallic nanocrystals. Unprotected metallic nanocrystals are removed. | 10-01-2009 |
20120288985 | METHOD FOR PRODUCING A PHOTOVOLTAIC CELL INCLUDING THE PREPARATION OF THE SURFACE OF A CRYSTALLINE SILICON SUBSTRATE - A method for producing of at least one photovoltaic cell includes successively the anisotropic etching of a surface of a crystalline silicon substrate and the isotropic etching treatment of said surface. The isotropic etching treatment includes at least two successive operations respectively consisting in forming a silicon oxide thin film with a controlled average thickness, ranging between 10 nm and 500 nm and in removing said thin film thus-formed. The operation consisting in forming a silicon oxide thin film on the face of the substrate is carried out by a thermally activated dry oxidation. Such a method makes it possible to improve the surface quality of the surface of the substrate once said surface is etched in an anisotropic way. | 11-15-2012 |
20120291861 | PHOTOVOLTAIC CELL, INCLUDING A CRYSTALLINE SILICON OXIDE PASSIVATION THIN FILM, AND METHOD FOR PRODUCING SAME - A heterojunction photovoltaic cell includes at least one crystalline silicon oxide film directly placed onto one of the front or rear faces of a crystalline silicon substrate, between said substrate and a layer of amorphous or microcrystalline silicon. The thin film is intended to enable the passivation of said face of the substrate. The thin film is more particularly obtained by radically oxidizing a surface portion of the substrate, before depositing the layer of amorphous silicon. Moreover, a thin layer of intrinsic or microdoped amorphous silicon can be placed between said think film and the layer of amorphous or microcrystalline silicon. | 11-22-2012 |