Basic results on the development of an electrically conductive, wear-and corrosion-resistant ceramic composite material are presented. From a closer examination of the dependence of the electrical conductivity on composition in the binary system ZrB2-B4C, we determined the percolation threshold at which an interconnected network of electrically conductive phase arises : for the system investigated, at a critical volume fraction of about 10 up to 25 vol.% ZrB2, the electrical conductivity increased rapidly and, above 40 vol.% ZrB2, an electrical conductivity similar to metals was observed (sigma(e) = 10(5)-10(7) S m(-1)). Based on ZrB2 as major component and mainly B4C as minor component, a ceramic composite material was obtained which exhibits a metallic electron conductivity, a relative high resistance against oxidation and promising mechanical properties.