CARBON GRAPHITE ELECTRODES

Brand Owner (click to sort) Address Description
U ULTRA CARBON CORPORATION BAY CITY MICH. CARBON AND GRAPHITE ELECTRODES AND POWDERS FOR USE IN SPECTROSCOPIC ANALYSIS APPARATUS AND IN OTHER MEASURING AND SCIENTIFIC APPLIANCES;HIGH PURITY GRAPHITE CONTAINERS, PARTICULARLY THOSE FOR USE FOR OR IN CONJUNCTION WITH APPARATUS FOR MELTING, CASTING, OR REFINING MATERIALS SUCH AS METALS, CERAMICS, AND CHEMICALS AND INCLUDING BOATS, FUNNELS, CRUCIBLES, AND MOLDS AND PARTS THEREOF INCLUSIVE OF BLOCK INSERTS, AND THOSE FOR USE IN THE TRANSPORT OF RADIO-ACTIVE MATERIALS;LOW AND HIGH PURITY CARBON AND GRAPHITE PLATE AND ROD STOCK;HIGH PURITY GRAPHITE JIGS AND FIXTURES FOR USE IN THE PREPARATION OF SEMICONDUCTOR DEVICES, AND HIGH PURITY GRAPHITE NUCLEAR REACTOR COMPONENTS INCLUDING MODERATORS, REFLECTORS, AND THERMAL COLUMNS;
UCP ULTRA CARBON CORPORATION BAY CITY MICH. Carbon and Graphite Electrodes and Powders for Use in Spectroscopic Analysis Apparatus and in Other Measuring and Scientific Appliances;High Purity Graphite Containers, Particularly Those for Use for or in Conjunction with Apparatus for Melting, Casting, or Refining Materials Such as Metals, Ceramics, and Chemicals and Including Boats, Funnels, Crucibles, and Molds and Parts Thereof Inclusive of Block Inserts, and Those for Use in the Transport of Radio-Active Materials;Low and High Purity Carbon and Graphite Plate and Rod Stock;High Purity Graphite Jigs and Fixtures for Use in the Preparation of Semi-Conductor Devices, and High Purity Graphite Nuclear Reactor Components Including Moderators, Reflectors, and Thermal Columns;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A plasma display panel with reinforcing electrodes arranged at both ends of discharge cells along a direction address electrodes are formed and coupled to display electrodes. The reinforcing electrodes may comprise carbon-based material such as carbon nanotubes or graphite, and they may be stacked in two or more layers and covered with a dielectric layer and a protective layer. The dielectric layer may be interposed between the reinforcing electrodes and the display electrodes. The dielectric layer may expose the reinforcing electrodes so that the protective layer covers the reinforcing electrodes. A portion of the protective layer corresponding to the reinforcing electrodes has a surface roughness of about 300 nm to about 700 nm.