Macro/mesoporous SiOC ceramics of anisotropic structure for cryogenic engineering

Publication date: 15 November 2017
Source:Materials & Design, Volume 134
Author(s): Huixing Zhang, Clara Lana Fidelis, Michaela Wilhelm, Zhipeng Xie, Kurosch Rezwan
Macro/mesopore SiOC ceramic monoliths of anisotropic structure were prepared by freeze casting, using methy phenyl polysiloxane (H44) or methy polysiloxane (MK) and (3-aminopropyl)triethoxysilane (APTES) as precursors. Influence of pyrolysis and testing temperature on compressive strength was investigated. Monoliths pyrolyzed at 700°C had the highest compressive strength both at 77K (14.0±4.3MPa) and 293K (7.7±1.8MPa), regardless of precursors. Compressive strength of monolith in parallel direction is around twice as much as perpendicular direction. Compressive strength of both monoliths in liquid nitrogen (77K) was around twice of that in air (293K) probably due to low temperature and liquid resistance. Anisotropic expansion was observed, and the shrinkage in parallel direction was almost twice of that in perpendicular direction, which can be verified by the Schapery equation. Monolith made from H44 showed a much higher coefficient of thermal expansion at 77K than monolith made from MK and APTES, probably due to difference in composition and measurement condition. Thermal conductivities and specific heat capacities displayed an upward trend from low to warmer temperature. The minimum and maximum values for thermal conductivity are 0.2 and 1.2Wm⁻¹K⁻¹. The maximum heat conductivities might be determined mainly by the macroporosity and the thermal conductivity of the hybrid material.

Graphical abstract

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