Creep behavior in interlaminar shear of a non-oxide ceramic composite with a multilayered matrix was investigated at 1200°C in laboratory air and in steam environment. The composite was produced via chemical vapor infiltration (CVI). The composite had an oxidation inhibited matrix, which consisted of alternating layers of silicon carbide and boron carbide and was reinforced with laminated Hi-Nicalon™ fibers woven in a five-harness-satin weave. Fiber preforms had pyrolytic carbon fiber coating with boron carbon overlay applied. The interlaminar shear properties were measured. The creep behavior was examined for interlaminar shear stresses in the 16–22 MPa range. Primary and secondary creep regimes were observed in all tests conducted in air and in steam. In air and in steam, creep run-out defined as 100 h at creep stress was achieved at 16 MPa. Larger creep strains were accumulated in steam. However, creep strain rates and creep lifetimes were only moderately affected by the presence of steam. The retained properties of all specimens that achieved run-out were characterized. Composite microstructure, as well as damage and failure mechanisms were investigated.
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ASME Turbo Expo 2014: Turbine Technical Conference and Exposition
June 16–20, 2014
Düsseldorf, Germany
Conference Sponsors:
- International Gas Turbine Institute
ISBN:
978-0-7918-4575-2
PROCEEDINGS PAPER
Creep in Interlaminar Shear of a SiC/SiC Ceramic Matrix Composite at Elevated Temperature
M. B. Ruggles-Wrenn,
M. B. Ruggles-Wrenn
Air Force Institute of Technology, Wright-Patterson Air Force Base, OH
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M. T. Pope
M. T. Pope
Air Force Institute of Technology, Wright-Patterson Air Force Base, OH
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M. B. Ruggles-Wrenn
Air Force Institute of Technology, Wright-Patterson Air Force Base, OH
M. T. Pope
Air Force Institute of Technology, Wright-Patterson Air Force Base, OH
Paper No:
GT2014-26245, V006T02A006; 8 pages
Published Online:
September 18, 2014
Citation
Ruggles-Wrenn, MB, & Pope, MT. "Creep in Interlaminar Shear of a SiC/SiC Ceramic Matrix Composite at Elevated Temperature." Proceedings of the ASME Turbo Expo 2014: Turbine Technical Conference and Exposition. Volume 6: Ceramics; Controls, Diagnostics and Instrumentation; Education; Manufacturing Materials and Metallurgy. Düsseldorf, Germany. June 16–20, 2014. V006T02A006. ASME. https://doi.org/10.1115/GT2014-26245
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