Patent Number: 053902173
Section: claims

1. A carbon fiber-reinforced carbon matrix composite sheet or plate which is positioned to extend, in its thickness direction, between a high temperature region and a low temperature region, said composite sheet or plate consisting essentially of: pitch-based carbon fibers oriented substantially in the thickness direction, wherein the ratio of the thermal conductivity in the thickness direction to the thermal conductivity in a direction perpendicular to the thickness direction is at least 2, and the thermal conductivity in thickness direction is at least 3 W/cm.multidot..degree.C.  (1) impregnating carbon fibers with a thermal setting resin to obtain impregnated carbon fibers;  (2) heating said impregnated carbon fibers to obtain a fiber/resin composite;  (3) cutting said fiber-resin composite to produce pieces having a predetermined fiber length and aligning the composite pieces so that the fibers are aligned substantially parallel to one another;  (4) exerting pressure to the aligned composite pieces in a direction perpendicular to the aligned fibers to form a pressed composite;  (5) molding and carbonizing said pressed composite to form a cabonized product;  (6) impregnating the carbonized product with pitch or a thermosetting resin to form an impregnated product and then carbonizing said impregnated product; and  (7) graphitizing said carbonized product to form said composite sheet or plate.  (1) a carbon fiber-reinforced carbon matrix composite sheet or plate which is positioned to extend, in its thickness direction, between a high temperature region and a low temperature region, said composite sheet or plate consisting essentially of pitch-based carbon fibers, wherein said fibers are oriented substantially in the thickness direction, the ratio of the thermal conductivity in the thickness direction to the thermal conductivity in a direction perpendicular to the thickness direction is at least 2 and the thermal conductivity in the thickness direction is at least 3 W/cm.multidot..degree.C.; and  (2) a metal plate bonded to one side of said composite sheet or plate wherein said metal sheet is bonded substantially perpendicular to the thickness direction of said composite sheet or plate.  (1) impregnating carbon fibers with a thermal setting resin to obtain impregnated carbon fibers;  (2) heating said impregnated carbon fibers to obtain a fiber/resin composite;  (3) cutting said fiber-resin composite to produce pieces having a predetermined fiber length and aligning the composite pieces so that the fibers are aligned substantially parallel to one another;  (4) exerting pressure to the aligned composite pieces in a direction Perpendicular to the aligned fibers to form a pressed composite;  (5) molding and carbonizing said pressed composite to form a cabonized product;  (6) impregnating the carbonized product with pitch or a thermosetting resin to form an impregnated product and then carbonizing said impregnated product; and  (7) graphitizing said carbonized product to form said composite sheet or plate. 2. The composite sheet or plate of claim 1, wherein said carbon fibers have a length in the range of from 15 to 100 mm. 3. The composite sheet or plate of claim 1, wherein said carbon fibers are wound by long carbon fibers. 4. The composite sheet or plate of claim 1, wherein said composite sheet or plate is prepared by a process comprising the steps of: 5. The composite sheet or plate of claim 4, wherein heating step (2) is conducted at a temperature of from 50.degree.-300.degree. C. for from 0.2-5 hours and graphitizing step (7) is conducted at a temperature of at least 2500.degree. C. 6. The composite sheet or plate of claim 5, wherein grafitizing step (7) is conducted at a temperature of at least 2800.degree. C. 7. The composite sheet of claim 1, wherein said ratio is at least 7.0. 8. A carbon fiber-reinforced carbon matrix composite sheet or plate having a metal sheet bonded thereto, comprising: 9. The composite sheet or plate of claim 8, wherein said carbon fibers have a length in the range of from 15 to 100 mm. 10. The composite sheet or plate of claim 8, wherein said carbon fibers are wound by long carbon fibers. 11. The composite sheet or plate of claim 8, wherein said composite sheet or plate is prepared by a process comprising the steps of: 12. The composite sheet or plate of claim 11, wherein heating step (2) is conducted at a temperature of from 50.degree.-300.degree. C. for from 0.2-5 hours and graphitizing step (7) is conducted at a temperature of at least 2500.degree. C. 13. The composite sheet or plate of claim 12, wherein grafitizing step (7) is conducted at a temperature of at least 2800.degree. C. 14. The composite sheet of claim 8, wherein said ratio is at least 7.0. 15. The composite sheet or plate of claim 8, wherein said metal has a thickness of at most 50 mm. 16. The composite sheet or plate of claim 15, wherein said metal has a thickness of from 0.1-0.3 mm.