SHEETS GRAPHITE BASED MATERIAL

Brand Owner (click to sort) Address Description
B SGL TECHNIC, INC. 28176 N. Avenue Stanford Valencia CA 91355 Sheets of graphite-based material for use as gaskets, seals, packings, and heat insulators;
BMY SGL TECHNIC, INC. 28176 N. Avenue Stanford Valencia CA 91355 Sheets of graphite based material for use as gaskets, seals, packings, and heat insulators;
BSC SGL TECHNIC, INC. 28176 N. Avenue Stanford Valencia CA 91355 Sheets of graphite-based material for use as gaskets, seals, packings, and heat insulators;
BSSC SGL TECHNIC, INC. 28176 N. Avenue Stanford Valencia CA 91355 Sheets of graphite-based material for use as gaskets, seals, packings, and heat insulators;
BTCSS SGL TECHNIC, INC. 28176 N. Avenue Stanford Valencia CA 91355 Sheets of graphite-based material for use as gaskets, seals, packings, and heat insulators;
GRAFILIT DONIT TESNIT d.o.o. C.KOMANDANTA STANETA 38 MEDVODE Slovenia Sheets of graphite-based material for use as gaskets, seals, packings, and heat insulators for industrial use; sealing materials, namely, sealants containing graphite and sealing materials of expanded graphite for static sealing; gaskets for industrial use, namely Sheets of graphite-based material for use as gaskets, seals, packings, and heat insulators for industrial use; sealing materials, namely, sealants containing graphite and sealing materials of expanded graphite for static sealing; gaskets for industrial use, namely flat gaskets for pipe flanges; graphite seals for pumps  ;Color is not claimed as a feature of the mark.;The wording GRAFILIT has no meaning in a foreign language.;
 

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

   
Technical Examples
  1. The invention relates to a feedstock material for use in making heat spreaders, comprising a sheet of annealed pyrolytic graphite having a thermal conductivity of greater than 1000 watts/m-K, a size in any dimension of at least 5 cm and a thickness of at least 0.2 mm. In one embodiment, the feedstock is made by hot-pressing a stack of alternate layers of pyrolytic graphite sheets with flat graphite dies for a finished sheet of annealed pyrolytic graphite comprising a plurality of layers being parallel to each other of at least 0.075 degrees per mm of thickness. In another embodiment, the finished sheet of annealed pyrolytic graphite is made by graphitizing a stack of films comprising a high-carbon polymer.