Eon
David Eon, Saint Martin D'Heres FR
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20160071936 | METHOD FOR PRODUCING A SCHOTTKY DIODE ON A DIAMOND SUBSTRATE - A method for producing a Schottky diode, including the following steps: oxygenating the surface of a semiconductive layer of monocrystalline diamond, in such a way as to replace hydrogen surface terminations of the semiconductive layer with oxygen surface terminations; and forming, by physical vapour deposition, a first conductive layer of zirconium or indium-tin oxide on the surface of the semiconductive layer. | 03-10-2016 |
Jerome Jean-Yves Eon, Saint Pierre De Plesguen FR
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20110064865 | METHOD FOR PREPARING A BATCH OF ANIMAL FEED FROM A PLURALITY OF INGREDIENTS - A batch of animal feed from a plurality of ingredients is prepared in a mixer/feeder wagon ( | 03-17-2011 |
20110112688 | MIXER/FEEDER APPARATUS AND A DEVICE FOR MONITORING OPERATION OF THE MIXER/FEEDER APPARATUS - A mixer/feeder wagon ( | 05-12-2011 |
Jerôme Jean-Yves Eon, Saint Pierre De Plesguen FR
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20120065759 | METHOD AND APPARATUS FOR DETERMINING A MIXING REGIME FOR USE IN THE PREPARATION OF ANIMAL FEED FROM A SET OF INGREDIENTS, AND A SYSTEM FOR PRODUCING THE ANIMAL FEED - A method and apparatus for determining a mixing regime for use in the preparation of an animal feed in which a main computer is programmed to store a master list of ingredients which are available to farmers and from which a farmer can select a specific set of ingredients for the preparation of animal feed. The main computer is programmed to store the ingredients in a look-up table cross-referenced with standard mixing periods to which the respective ingredients should be subjected during the mixing regime to produce an animal feed. Additionally, the look-up table contains mixing factors by which the standard mixing periods may be altered in order to take account of non-standard conditions, such as variations of the ingredients, the proportion of the particular ingredient, the average size or weight of the animals and the mixing apparatus and condition thereof in which the animal feed is to be mixed. The computer is programmed to determine the mixing period to which each ingredient is to be subjected in the mixing apparatus based on the corresponding standard mixing periods and any mixing factors which should be taken into account. The computer is programmed to then produce a sequence in which the ingredients are to be loaded into the mixing apparatus and the instants at which the respective ingredients are to be loaded into the mixing apparatus, so that each ingredient is subjected to the appropriate mixing period for that ingredient during the mixing cycle of the mixing regime, in order to avoid over-mixing and under-mixing of ingredients. | 03-15-2012 |
Nicolas Eon, Grenoble FR
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20120103861 | TRAY FOR POSITIONING ELONGATED OBJECTS, IN PARTICULAR SYRINGE BODIES OR SYRINGES - Each of said elongated objects comprises a body and a flange. The tray includes a plate with openings and bearing surfaces. | 05-03-2012 |
20120193256 | TRAY FOR POSITIONING ELONGATED OBJECTS, IN PARTICULAR SYRINGE BODIES OR SYRINGES - This tray includes spaced apart openings arranged in parallel rows, intended to receive the bodies of the elongated objects, and projections making it possible to place the flanges of the elongated objects inserted in these openings in a determined angular position on the tray when the bodies of these elongated objects are engaged in these openings. According to the invention: said projections are arranged so as to place the length of said flanges in a determined angular position with respect to the rows of openings, and the openings of a first row of openings are arranged with respect to a second row of openings adjacent to said first row, such that after installation of the elongated objects on the tray, the flanges of the objects inserted in the openings of said the first row imbricates with the flanges of the objects inserted in the openings of said second row, i.e. each flange of an object of said the first row is positioned in a space existing between the two adjacent flanges of the objects of said second row, in the immediate vicinity of these two flanges. | 08-02-2012 |
Serge Eon, Rhode Saint Genes BE
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20120108747 | Methods of Making High Impact Polystyrene - A process for producing high impact polystyrene including feeding at least one vinyl aromatic monomer, an elastomer, and a free radical initiator to a first linear flow reactor to form a reaction mixture. Polymerizing the reaction mixture in the first linear flow reactor to a point below the point at which phase inversion occurs to produce a first polymerization mixture and feeding the first polymerization mixture from the first linear flow reactor to a second linear flow reactor. Polymerizing the reaction mixture in the second linear flow reactor to at least a phase inversion point of the mixture to produce a second polymerization mixture and feeding the second polymerization mixture from the second linear flow reactor to at least a third linear flow reactor for post-inversion polymerization of the second polymerization mixture. The product stream can have an ESCR value of at least 10% toughness retained with less than 10 wt % rubber content. | 05-03-2012 |
Serge Eon, Rhode Saint Genese BE
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20150175783 | Methods of Making High Impact Polystyrene - A process for producing high impact polystyrene including feeding at least one vinyl aromatic monomer, an elastomer, and a free radical initiator to a first linear flow reactor to form a reaction mixture. Polymerizing the reaction mixture in the first linear flow reactor to a point below the point at which phase inversion occurs to produce a first polymerization mixture and feeding the first polymerization mixture from the first linear flow reactor to a second linear flow reactor. Polymerizing the reaction mixture in the second linear flow reactor to at least a phase inversion point of the mixture to produce a second polymerization mixture and feeding the second polymerization mixture from the second linear flow reactor to at least a third linear flow reactor for post-inversion polymerization of the second polymerization mixture. The product stream can have an ESCR value of at least 10% toughness retained with less than 10 wt % rubber content. | 06-25-2015 |