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Determining the slow crack growth parameter and weibull two-parameter estimates of bilaminate disks by constant displacement-rate flexural testing
Geoffrey A. Thompson
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Contribution to journal
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Article
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peer-review
46
Scopus citations
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Dive into the research topics of 'Determining the slow crack growth parameter and weibull two-parameter estimates of bilaminate disks by constant displacement-rate flexural testing'. Together they form a unique fingerprint.
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Keyphrases
Two-parameter
100%
Parameter Estimation
100%
Growth Parameters
100%
Flexural Test
100%
Weibull
100%
Constant Displacement
100%
Slow Crack Growth
100%
Displacement Rate
100%
Layer Height
80%
Porcelain
40%
In-Ceram Alumina
40%
Equibiaxial
40%
Failure Mode
20%
Composite Disk
20%
Ceramic Matrix Composites
20%
Catastrophic Failure
20%
Testing Apparatus
20%
Ring-on-ring
20%
Bilayered Ceramic
20%
Layered Materials
20%
Growth Exponent
20%
Weibull Parameters
20%
Engineering
Parameter Estimate
100%
Growth Parameter
100%
Slow Crack Growth
100%
Displacement Rate
100%
Aluminum Oxide
40%
Failure Mode
20%
Catastrophic Failure
20%
Material Science
Flexural Testing
100%
Crack Growth
100%
Aluminum Oxide
66%
Ceramic Composite
33%
Layered Material
33%
Medicine and Dentistry
Aluminum Oxide
100%