Russian Journal of Inorganic Chemistry
2013
2013
Production of ultrahigh temperature composite materials HfB2-SiC and the study of their behavior under the action of a dissociated air flow
Авторы:
V.G. Sevast’yanov, E.P. Simonenko, A.N. Gordeev, N.P. Simonenko, A.F. Kolesnikov, E.K. Papynov, O.O. Shichalin, V.A. Avramenko, N.T. Kuznetsov
V.G. Sevast’yanov, E.P. Simonenko, A.N. Gordeev, N.P. Simonenko, A.F. Kolesnikov, E.K. Papynov, O.O. Shichalin, V.A. Avramenko, N.T. Kuznetsov
Abstract—Ultrahigh temperature composite materials HfB2–SiC containing 25, 35, and 45 vol % SiC were produced by spark plasma sintering. Modeling of heating under the action of a dissociated air flow for selected samples using a VGU4 induction plasma generator showed that these materials do not degrade even while keeping at a surface temperature of more than 2000°C (up to 2600°C) for 11 min. A combination of optical microscopy, scanning electron microscopy (with EDX analysis), and Xray computed microtomography were used for investigating the microstructure and composition of the oxidized layer before and after heating.
Ссылка на оригинал статьи
