| Patent Number |
Title Of Patent |
Date Issued |
| 5316080 |
Heat transfer device |
May 31, 1994 |
| Gas derived graphite fibers generated by the decomposition of an organic gas are joined with a suitable binder. This produces a high thermal conductivity composite material which passively conducts heat from a source, such as a semiconductor, to a heat sink.The fibers may be intercalated |
| 5260124 |
Intercalated hybrid graphite fiber composite |
November 9, 1993 |
| Highly conducting lightweight hybrid materials are obtained by weaving strands of carbon or graphite fibers into a 2-dimensional fabric-like structure, depositing a layer of carbon onto the fibers of the fabric-like structure, heating the fabric-like structure to graphitize the carbon |
| 5225171 |
Apparatus for intercalating large quantities of fibrous structures |
July 6, 1993 |
| Apparatus for intercalating large quantities of fibrous structures uses a rotatable reaction chamber containing a liquid phase intercalate. The intercalate liquid phase is controlled by appropriately heating, cooling or pressurizing the reaction. Rotation of the chamber containing the fi |
| 5224030 |
Semiconductor cooling apparatus |
June 29, 1993 |
| Gas derived graphite fibers generated by the decomposition of an organic gas are joined with a suitable binder. This produces a high thermal conductivity composite material which passively conducts heat from a source, such as a semiconductor, to a heat sink.The fibers may be intercalated |
| 5073412 |
Method of intercalating large quantities of fibrous structures |
December 17, 1991 |
| A method of intercalating large quantities of fibrous structures uses a rotatable reaction chamber containing a liquid phase intercalate. The intercalate liquid phase is controlled by appropriately heating, cooling or pressurizing the reaction. Rotation of the chamber containing the fibe |
