Abstract
Tensile and compressive properties of fibre-bonded ceramic (Tyrannohex) are reported along with the relationship between fibre orientation and flexural strength. In this study, Satin-Tyrannohex was produced by hot-pressing an oxidized satin-woven Tyranno fibre. The Satin-Tyrannohex showed the most well-balanced mechanical properties in all directions from the fibre axis at room temperature compared with crossplied- or 0 °/±45 °/90 °-Tyrannohex. The Satin-Tyrannohex maintained excellent strength up to 1400°C, which is comparable to or greater than the strength at room temperature. Decreases in tensile and compressive strengths at 1500°C could be due to an increase in the critical length of the fracture fibre and a decrease in the capability to support the fibre, respectively, because of the slight “softening” of the matrix.
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