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Crack growth behavior of SiC
f
/SiC composite at room and high temperatures
S. Raghuraman
,
J. F. Stubbins
, M. K. Ferber
, A. A. Wereszczak
Nuclear, Plasma, and Radiological Engineering
Research output
:
Contribution to journal
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Conference article
›
peer-review
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f
/SiC composite at room and high temperatures'. Together they form a unique fingerprint.
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Keyphrases
High Temperature
100%
Room Temperature
100%
Crack Growth Behavior
100%
Cyclic Loading
100%
SiCf
100%
SiC Composites
100%
Crack Growth
66%
Rate of Increase
33%
Creep
33%
Load Ratio
33%
Ceramic Matrix Composites
33%
Damage Process
33%
Tension-tension
33%
Flexure
33%
Maximum Load
33%
Crack Growth Resistance
33%
Notched Specimen
33%
Growth Centers
33%
Minimum Load
33%
Fiber Reinforced Ceramics
33%
Additional Damage
33%
High Temperature Test
33%
Microstructural Aspects
33%
Engineering
Room Temperature
100%
Crack Growth Behavior
100%
Cyclic Loading
100%
Crack Growth
66%
Toughening
66%
Rate Increase
33%
Creep
33%
Load Ratio
33%
Crack Growth Rate
33%
Test Result
33%
Damage Process
33%
Flexure
33%
Notched Specimen
33%
Material Science
Crack Growth
100%
Composite Material
100%
Creep
16%
Ceramic Composite
16%
Flexural Testing
16%