D. Sporn scite author profile

High-temperature engine applications have been limited by the performance of metal alloys and carbide fiber composites at elevated temperatures. Random inorganic networks composed of silicon, boron, nitrogen, and carbon represent a novel class of ceramics with outstanding durability at elevated temperatures. SiBN(3)C was synthesized by pyrolysis of a preceramic N-methylpolyborosilazane made from the single-source precursor Cl(3)Si-NH-BCl(2). The polymer can be processed to a green fiber by melt-spinning, which then undergoes an intermediate curing step and successive pyrolysis. The ceramic fibers, which are presently produced on a semitechnical scale, combine several desired properties relevant for an application in fiber-reinforced ceramic composites: thermal stability, mechanical strength, high-temperature creep resistivity, low density, and stability against oxidation or molten silicon.

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Subwavelength-structured antireflective surfaces on glass

Gombert

et al. 1999

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Antireflective transparent covers for solar devices

et al. 2000

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Properties of Amorphous SIBNC-Ceramic Fibres

Baldus¹,

Passing²,

Scholz³

et al. 1996

KEM

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Finescaled piezoelectric 1–3 composites: properties and modeling

Steinhausen

Hauke

Seifert

et al. 1999

Journal of the European Ceramic Society

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D. Sporn

Ceramic Fibers for Matrix Composites in High-Temperature Engine Applications

Subwavelength-structured antireflective surfaces on glass

Antireflective transparent covers for solar devices

Properties of Amorphous SIBNC-Ceramic Fibres

Finescaled piezoelectric 1–3 composites: properties and modeling

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