| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 423447800 | Controlling varying temperature or plural heating steps | 8 |
| 20080260618 | METHOD OF GROWING CARBON NANOTUBE AND CARBON NANOTUBE GROWING SYSTEM - When growing carbon nanotubes, a substrate is delivered into a thermal CVD chamber whose internal temperature is a room temperature, and a mixed gas of an inert gas and a raw gas is introduced in the inside thereof. After a pressure inside of the chamber is stabilized at 1 kPa, the temperature in the chamber is raised to 510° C. in 1 minute. As a result, the carbon nanotubes start to grow linearly from the respective catalytic particles without any fusion of each of the catalytic particles. | 10-23-2008 |
| 20110002838 | METHOD FOR PREPARING SINGLE WALLED CARBON NANOTUBES FROM A METAL LAYER - Methods of preparing single walled carbon nanotubes are provided. An arrangement comprising one or more layers of fullerene in contact with one side of a metal layer and a solid carbon source in contact with the other side of metal layer is prepared. The fullerene/metal layer/solid carbon source arrangement is then heated to a temperature below where the fullerenes sublime. Alternatively, a non-solid carbon source may be used in place of a solid carbon source or the metal layer may simply be saturated with carbon atoms. A multiplicity of single walled carbon nanotubes are grown on the fullerene side of the metal layer, wherein at least 80% of the single walled carbon nanotubes in said multiplicity have a diameter within ±5% of a single walled carbon nanotube diameter D present in said multiplicity, said diameter D being in the range between 0.6-2.2 nm. | 01-06-2011 |
| 20110280794 | APPARATUS AND METHOD FOR SUBSTRATE AND GAS HEATING DURING CHEMICAL VAPOR DEPOSITION NANOTUBE SYNTHESIS - Apparatus and methods are described for separate heating of substrate, catalyst and feedstock/transport gases for the controllable CVD synthesis of various carbon nanotubes and nanostructures, and particularly for CVD growth of oriented forests of multi-wall CNT forests, which are highly dry-spinnable into sheets and yarns. | 11-17-2011 |
| 20120128574 | CARBON NANOSTRUCTURE SYNTHESIS FROM CARBON-EXCESS EXPLOSIVES IN SUPERCRITICAL FLUID - Carbon nanostructures are synthesized from carbon-excess explosives having a negative oxygen balance. A supercritical fluid provides an environment that safely dissolves and decomposes the explosive molecules into its reactant products including activated C or CO and provides the temperature and pressure for the required collision rate of activated C atoms and CO molecules to form carbon nanostructures such as graphene, fullerenes and nanotubes. The nanostructures may be synthesized without a metal reactant at relatively low temperatures in the supercritical fluid to provide a cost-effective path to bulk fabrication. These nanostructures may be synthesized “metal free”. As the supercritical fluid provides an inert buffer that does not react with the explosive, the fluid is preserved. Once the nanostructures are removed, the other reaction products may be removed and the fluid recycled. | 05-24-2012 |
| 20120288434 | METHOD FOR PREPARING POLYACRYLONITRILE-BASED POLYMER FOR PREPARATION OF CARBON FIBER USING MICROWAVE AND METHOD FOR PREPARING CARBON FIBER USING THE SAME - Disclosed therein is a method for preparing a polyacrylonitrile-based polymer for preparation of carbon fiber having a melting point controlled by selecting an optimal energy of microwave, and a method for preparing a carbon fiber through melt spinning using the preparation method for polyacrylonitrile-based polymer. The present invention uses microwave to control the properties of the polyacrylonitrile-based polymer in a simplified way and prepare the polymer optimized for preparation of carbon fiber precursor through melt spinning for a short polymerization time, and provides a means for mass production of the polyacrylonitrile-based polymer being suitable for melt spinning at a temperature lower than the stabilization temperature and acquiring properties adequate to preparation of carbon fiber through stabilization. Hence, the present invention is expected to contribute to mass production of high-performance carbon fibers at reduced cost. | 11-15-2012 |
| 20160060535 | METHOD AND DEVICE FOR RECOVERING CARBON FIBRES FROM CARBON-FIBRE CONTAINING PLASTICS - The present invention relates to a process and an apparatus for recovering (recycling) carbon fibers from carbon fiber-containing plastics, in particular from carbon fiber-reinforced plastics (CFPs), preferably from carbon fiber-containing and/or carbon fiber-reinforced composites (composite materials), and also to the recycled carbon fibers obtainable by the process according to the invention and the use thereof. | 03-03-2016 |
| 20160130732 | CARBONIZATION METHOD AND CARBON FIBER PRODUCTION METHOD - A carbonization method of carbonizing precursor fibers that are being conveyed includes carbonization performed using a plurality of carbonization furnaces for heating fibers arranged in the direction in which the fibers are conveyed. The plurality of carbonization furnaces include at least one carbonization furnace that heats the fibers using plasma when the fibers are passing through the inside of the at least one carbonization furnace. A carbon fiber production method includes a carbonization process of carbonizing precursor fibers that are being conveyed. The carbonization process is performed with the above carbonization method. | 05-12-2016 |
| 20160153123 | PROCESS FOR RECYCLING COMPOSITE MATERIALS AND A SYSTEM FOR TREATING WASTE GASES | 06-02-2016 |
