Koziol
Bernhard Koziol, Lower Plenty AU
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20120281946 | MODALMETRIC FIBRE SENSOR - A modalmetric fibre sensor comprises a multimode sensor fibre ( | 11-08-2012 |
Bernhard Koziol, Victoria AU
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20110097032 | MODALMETRIC FIBRE SENSOR - A modalmetric fibre sensor comprises a multimode sensor fibre ( | 04-28-2011 |
Krzysztof Koziol, Cambridge GB
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20130196156 | CHEMICAL TREATMENT OF CARBON NANOTUBE FIBRES - The polymerisation of material contained within and/or added to high temperature reactor produced carbon nanotube fibre wherein the contained material is crosslinked. | 08-01-2013 |
Krzysztof Kazimiers Koziol, Cambridge GB
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20100276633 | ENHANCEMENT OF THE STRUCTURE AND PROPERTIES OF CARBON NANOTUBE FIBRES AND FILMS - A method of increasing the density of carbon nanotube fibres or films containing carbon nanotubes to at least 50% w/w, said method including the steps of exposing the fibre or film to suitable density enhancing agent, or to electromagnetic radiation, or by applying heat, or by mechanical compaction. | 11-04-2010 |
20110224113 | Method of Making Carbon Nanotube Dispersions for the Enhancement of the Properties of Fluids - A method for the preparation of carbon nanotube modified fluids such, that the dispersion of nanotubes in such fluids, exampled by those which are oil based is enhanced through the combined use of mechanical, sonic and ultrasonic devices. | 09-15-2011 |
20130028830 | ENHANCEMENT OF THE STRUCTURE AND PROPERTIES OF CARBON NANOTUBE FIBRES AND FILMS - A method of increasing the density of carbon nanotube fibres or films containing carbon nanotubes to at least 50% w/w, said method including the steps of exposing the fibre or film to suitable density enhancing agent. | 01-31-2013 |
Krzysztof Kazimierz Koziol, Cambridge GB
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20130309473 | Carbon Materials Comprising Carbon Nanotubes and Methods of Making Carbon Nanotubes - The present invention relates to carbon materials comprising carbon nanotubes, powders comprising carbon nanotubes and methods of making carbon nanotubes. In the methods of the present invention, the size and/or formation of floating catalyst particles is closely controlled. The resulting carbon nanotubes typically exhibit armchair chirality and typically have metallic properties. The carbon nanotubes produced by this method readily form bulk materials, which typically have a conductivity of at least 0.7×106 Sm″1 in at least one direction. The invention has particular application to the manufacture of components such as electrical conductors. Suitable electrical conductors include wires (e.g. for electrical motors) and cables (e.g. for transmitting electrical power). | 11-21-2013 |
Krzysztof K. K. Koziol, Cambridge GB
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20140231118 | Materials and Methods for Insulation of Conducting Fibres, and Insulated Products - An electrical conductor comprising an electrically conducting fibre comprising carbon nanotubes and/or graphene nanoribbon and a layer of insulating material coated around the electrically conducting fibre. The insulating material substantially does not penetrate the electrically conducting fibre, or penetrates the electrically conducting fibre only to a depth that leaves a continuous conductive path along a remaining part of the electrically conducting fibre. | 08-21-2014 |
Miroslaw Koziol, Wuppertal DE
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20120151977 | Combined Mechanical and Electronic Key - A combined mechanical and electronic key includes a housing with an edge area having a link configured with grooves, electronics disposed in the housing, a key portion, which has a bearing point mounted in a rotatable manner about an axis along the link, an activating element in the bearing point having at least two radially projecting wings and a radially projecting driver, where the activating element is movable between a passive and an active position, the key portion is movable between an inoperative position and an operative position, where in the inoperative and operative positions, in which the activating element occupies the passive position, each wing is in a respective groove, and during the movement between the inoperative and operative positions, in which the activating element occupies the active position, the wings are detached from the grooves, and the driver engages with a contour of the bearing point. | 06-21-2012 |