Class / Patent application number | Description | Number of patent applications / Date published |
428605000 | Mass of only fibers | 11 |
20100129682 | METHOD TO PROVIDE COIL SHAVED METAL FIBERS - A method for providing coil shaved metal fibers according to the present invention comprises the steps of -providing a metal composite foil, the metal composite foil comprising oat least two metal layers (Lx) for being converted into metal fibers, each pair of adjacent metal layers are mutually separated by a sacrificial layer (Sy) provided from a sacrificial metal, each sacrificial layer (Sy) having a first and second surface, whereby for each sacrificial layer, the first surface contacts one of the pair of adjacent metal layers, the second surface is contacting the other of the pair of adjacent metal layers; -coiling said metal composite foil on a shaft thereby providing a metal coil having one free end surface; -rotating the metal coil and cutting the free end surface of the metal coil by means of a cutting tool, thereby providing a bundle of composite fibers; -removing the sacrificial metal of the sacrificial layers from the composite fibers thereby providing a bundle of metal fibers, each metal fiber being obtained from one of the metal layers (Lx). | 05-27-2010 |
20110300400 | METAL MEMBER - High aspect-ratio metal members such as a nanopillar, a nanorod, and the like, and a method of producing the same. The present invention provides high aspect-ratio metal members such as a nanopillar or a nanorod, and a method of producing the same, such metal members being produced by filling the micropores of an anodized film having a degree of ordering of 70% or more with a metal having an aspect ratio of 5 or more, followed by baking in inert gas atmosphere or in a vacuum at 300° C. or more to 1000° C. or less to improve crystallinity. | 12-08-2011 |
20130260170 | ANTI-VANDALISM FABRIC SUITABLE FOR UPHOLSTERING SEATS - An anti-vandalism fabric having at least one thread intertwined with itself forming a mesh, the thread in turn being formed by a bundle of between 3 and 14 filaments or a combination of filaments and yarns not plaited with one another, of which at least 3 are metal filaments, the metal filaments of the bundle having a diameter between 0.05 mm and 0.09 mm. The fabric can include more than one mesh. In one variant the mesh or meshes are embedded in a panel of non woven fabric. | 10-03-2013 |
20130323527 | POROUS METAL FOIL AND PRODUCTION METHOD THEREFOR - The porous metal foil of the present invention comprises a two-dimensional network structure composed of a metal fiber. This porous metal foil has a first side having a higher glossiness; and a second side having a lower glossiness located on the opposite side of the first side. The ratio of glossiness G | 12-05-2013 |
20140120363 | Flexible Laminating Ring Covering - The present invention provides a material which comprises a first knitted steel fiber layer, and a second steel fiber layer, in which the first knitted steel fiber layer and the second steel fiber layer is interlocked to form the material. The orientation of the layer being selected in that if the first knitted steel fiber layer in unlocked state rolls up on one side in a first dimension and the second steel fiber layer in unlocked state rolls up in on one side in this same first dimension, the orientation of the layers being contacting each other when the layers are interlocked, to her compensate the forces within the materials. | 05-01-2014 |
20140205853 | TRANSPARENT CONDUCTIVE COATING FILM, TRANSPARENT CONDUCTIVE INK, AND TOUCH PANEL USING TRANSPARENT CONDUCTIVE COATING FILM OR TRANSPARENT CONDUCTIVE INK - A transparent conductive coating film comprising at least a metal nanowire, wherein the transparent conductive coating film has a ratio of a bent wire in the metal nanowire of 10% or less, a surface resistivity of 150 Ω/□ or less, and a haze value of 1.0% or less. | 07-24-2014 |
20140295207 | TEXTILE STRUCTURE FOR THE REINFORCEMENT OF A POLYMER MATERIAL - A textile structure for the reinforcement of a polymer material The invention relates to textile structure ( | 10-02-2014 |
20140342177 | SYNTHESIS OF CUPRONICKEL NANOWIRES AND THEIR APPLICATION IN TRANSPARENT CONDUCTING FILMS - A method of synthesis to produce a conductive film including cupronickel nanowires. Cupronickel nanowires can be synthesized from solution, homogeneously dispersed and printed to make conductive films (preferably < | 11-20-2014 |
20140377579 | Metallic Nanomesh - A transparent flexible nanomesh having at least one conductive element and sheet resistance less than 300Ω/□ when stretched to a strain of 200% in at least one direction. The nanomesh is formed by depositing a sacrificial film, depositing, etching, and oxidizing a first metal layer on the film, etching the sacrificial film, depositing a second metal layer, and removing the first metal layer to form a nanomesh on the substrate. | 12-25-2014 |
20150086805 | METHOD FOR FORMING METAL STRUCTURES - A method of forming a metal structure. The method comprises providing a dispersion of metal nanoparticles and a solution comprising a transient polymer and solvent. The dispersion of metal nanoparticles and the solution are formed by coaxially electrospinning into a fiber comprising the metal nanoparticles and the transient polymer. The fiber is heated to decompose the transient polymer and form a metallic structure. | 03-26-2015 |
20150343532 | POROUS ALUMINUM BODY AND MANUFACTURING METHOD THEREFOR - A porous aluminum body having high porosity and a manufacturing method therefor are provided, wherein the porous aluminum body can be manufactured by continuous manufacturing steps. In the present invention, this porous aluminum body includes a plurality of aluminum fibers connected to each other. The aluminum fibers each have a plurality of columnar protrusions formed at intervals on an outer peripheral surface of the aluminum fibers, the columnar protrusions protruding outward from the outer peripheral surface. Adjacent aluminum fibers are integrated with the aluminum fibers and the columnar protrusions. | 12-03-2015 |