Preparation and characterization of HfOC/SiOC composite powders and fibermats via the polymer pyrolysis route
Arijit Roy, Paul Owiredu, Gurpreet Singh

TL;DR
This paper describes a new ceramic composite combining HfOC and SiOC, offering high-temperature resilience and oxidation resistance through a polymer pyrolysis method.
Contribution
A novel HfOC/SiOC composite is synthesized via polymer pyrolysis, enhancing oxidation resistance and ceramic yield.
Findings
The composite showed a 78 wt% polymer-to-ceramic yield at 800 °C and 74 wt% at 1200 °C.
The HfOC/SiOC fibermat exhibited only 6% linear shrinkage during oxidation testing at 800 °C.
The composite outperformed carbon-rich SiOC and carbon fibermats in oxidation resistance.
Abstract
We report on the synthesis and characterization of HfOC/SiOC ceramic composite powders and electrospun fibermats, which integrate the high-temperature resilience of HfOC with the oxidation resistance of silicon oxycarbide (SiOC). The composites were fabricated through a polymer-pyrolysis route by integrating 1,3,5,7-tetramethyl, 1,3,5,7-tetravinyl cyclotetrasiloxane (4-TTCS), a precursor source for SiOC, and a commercial HfC precursor in a 1 : 1 ratio by mass. First, the HfC precursor was heated to 70 °C to drive off water molecules, followed by its blending with the liquid phase 4-TTCS and cross-linking at a moderate temperature (160–400 °C). This was followed by pyrolysis at three different temperatures – 800, 1000, and 1200 °C in an inert argon atmosphere. The composite ceramic was comprehensively characterized by the use of electron microscopy for particle and fiber morphology,…
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Taxonomy
TopicsAdvanced ceramic materials synthesis · Advanced materials and composites · MXene and MAX Phase Materials
