Journal
CERAMICS INTERNATIONAL
Volume 44, Issue 17, Pages 20961-20967Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2018.08.102
Keywords
Polymer derived ceramics; Casting; Sintering; Electrical properties; Mechanical properties
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Funding
- ETH, through the Strategic Focus Area (SFA) - Advanced Manufacturing programme under the project Ceramic X.0 - High-precision micro-manufacturing of ceramics
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Polymer derived SiOC and SiCN ceramics (PDCs) are interesting candidates for additive manufacturing techniques to develop micro sized ceramics with the highest precision. PDCs are obtained by the pyrolysis of crosslinked polymer precursors at elevated temperatures. Within this work, we are investigating PDC SiOC ceramic monoliths synthesized from liquid polysiloxane precursor crosslinked with divinylbenzene for fabrication of conductive electromechanical devices. Microstructure of the final ceramics was found to be greatly influenced by the pyrolysis temperature. Crystallization in SiOC ceramics starts above 1200 degrees C due to the onset of carbothermal reduction leading to the formation of SiC and SiO2 rich phases. Microstructural characterisation using ex-situ X-ray diffraction, FTIR, Raman spectra and microscopy imaging confirms the formation of nano crystalline SiC ceramics at 1400 degrees C. The electrical and mechanical properties of the ceramics are found to be significantly influenced by the phase separation with samples becoming more electrically conducting but with reduced strength at 1400 degrees C. A maximum electrical conductivity of 10(1) S cm(-1) is observed for the 1400 degrees C samples due to enhancement in the ordering of the free carbon network. Mechanical testing using the ball on 3 balls (B3B) method revealed a characteristic flexural strength of 922 MPa for 1000 degrees C amorphous samples and at a higher pyrolysis temperature, materials become weaker with reduced strength.
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