Joining of carbon/carbon composites for nuclear applications

## Joining of Carbon-Carbon Composites for Thermonuclear Fusion Applications. -Metals such as Si, Al, and Ti, intermetallic compounds such as Mg2Si, and borosilicate and zinc borate glasses are tested as joining agents for the title purpose. Despite the extremely low wettability of carbonfiber re

Nanoindentation tests on a carbon fiber and carbon matrix composite (C/C composite) for nuclear applications were carried out over a load range from 50pN to 20mN on two different crosssections, normal and parallel to the fiber axis. For reference, an isotropic nuclear graphite was also examined. Bot

Carbon Fibre Reinforced Carbon (CFRC), or Carbon-carbon, is a unique composite material consisting of carbon fibres embedded in a carbonaceous matrix. Originally developed for aerospace applications, its low density, high thermal conductivity and excellent mechanical properties at elevated temperatu

## Because of the excellent mechanical properties at elevated temperature, carbon-fiber reinforced carbon (carbon-carbon) composites have received much attention for high-temperature structural applications. One serious drawback against actual use of carbon-carbon composites is their poor oxidatio

Advanced carbon-carbon composites were joined to copper-clad molybdenum (Cu/Mo) using four active metal brazes containing Ti (Cu-ABA, Cusin-1 ABA, Ticuni, and Ticusil) for potential use in thermal management applications. The brazed joints were characterized using scanning electron microscopy (SEM),