Lucchese
Alain Lucchese, Vigoulet Auzil FR
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20140142879 | DIFFERENTIAL VOLTAGE MEASUREMENT - Measurement system and procedure suitable for measuring a voltage differential, the system comprising a measurement unit ( | 05-22-2014 |
Claudio Lucchese, Maranello (mo) IT
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20140093670 | Surface covering foundation - A surface covering foundation includes a first covering element having a thickness and defining a first juxtaposition side; a second covering element having a thickness substantially equal to that of the first element and defining a second juxtaposition side, adapted to be juxtaposed with the first side, the first element having a lip that forms an outward extension of the first juxtaposition side and is adapted to overlap the second juxtaposition side in a juxtaposed configuration of the first and the second covering elements. | 04-03-2014 |
Giovanni Lucchese US
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20150130106 | PROCESS OF RECYCLING A FIBER-REINFORCED POLYMERIC MATERIAL AND RELATED APPARATUS - The present invention is related to a process of recycling fiber-reinforced polymeric material including the following steps: a) crushing the material so as to reduce it into fragments; b) mixing the material obtained in the previous step with a liquid adhesive; c) pouring the mixture obtained in step b) into a mold; d) applying a pressure. In particular, the mixing step b) is carried out by nebulizing some adhesive and simultaneously stirring the particles of the fiber-reinforced polymeric material so that a thin layer of adhesive will deposit on the surface of basically each particle of the fiber-reinforced polymeric material. Furthermore, the present invention relates to an apparatus for carrying out the process. | 05-14-2015 |
Giovanni Lucchese, Caneva IT
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20150130106 | PROCESS OF RECYCLING A FIBER-REINFORCED POLYMERIC MATERIAL AND RELATED APPARATUS - The present invention is related to a process of recycling fiber-reinforced polymeric material including the following steps: a) crushing the material so as to reduce it into fragments; b) mixing the material obtained in the previous step with a liquid adhesive; c) pouring the mixture obtained in step b) into a mold; d) applying a pressure. In particular, the mixing step b) is carried out by nebulizing some adhesive and simultaneously stirring the particles of the fiber-reinforced polymeric material so that a thin layer of adhesive will deposit on the surface of basically each particle of the fiber-reinforced polymeric material. Furthermore, the present invention relates to an apparatus for carrying out the process. | 05-14-2015 |
Paul R. Lucchese, Sudbury, MA US
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20080269734 | Optical Array for Treating Biological Tissue - Skin can be treated by penetrating an epidermis of the skin with a plurality of waveguides. Each waveguide has an end, which is positioned within a dermis of the skin. Electromagnetic radiation can be delivered through the plurality of waveguides to the dermis having a port wine stain for a time sufficient to selectively destroy a cutaneous blood vessel within the port wine stain. The time is less than a thermal diffusion time between the epidermis and the dermis to prevent forming substantial unwanted thermal injury within the epidermis. | 10-30-2008 |
20080269735 | Optical array for treating biological tissue - An apparatus can treat biological tissue using a base member, a plurality of needles, and a plurality of fiber optics. The plurality of needles extend from the base member. Each needle defines a bore capable of receiving a fiber optic and has an end. The plurality of needles form an array capable of penetrating a biological tissue and positioning each end within a subsurface volume of the biological tissue. Each fiber optic is adapted for insertion into the bore of each needle, and each fiber optic is capable of delivering electromagnetic radiation to the subsurface volume of the biological tissue to treat the biological tissue. | 10-30-2008 |