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Nonlinear Ultrasonic Damage Characterization of Limestone
Megan E. McGovern,
Henrique Reis
Industrial and Enterprise Systems Engineering
Civil and Environmental Engineering
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peer-review
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Keyphrases
Damage Level
100%
Nonlinear Ultrasonic Technique
100%
Damage Characterization
100%
Nonlinear Methods
66%
Non-collinear Wave Mixing
66%
Limestone Rock
66%
Order of Magnitude
33%
Nonlinearity
33%
Assure
33%
Attenuation
33%
Damage Accumulation
33%
Ultrasonic
33%
Increased Temperature
33%
Scattered Wave
33%
Temperature Level
33%
Ultrasonic Approach
33%
Wave Interaction
33%
Testing Equipment
33%
Mixing Approach
33%
Dilatational Waves
33%
Rock Sample
33%
Phase Velocity Measurement
33%
Dolomitic Limestone
33%
Engineering
Ultrasonics
100%
Test Sample
33%
Damage Accumulation
33%
Increasing Temperature
33%
Periodic Time
33%
Equipment Testing
33%
Phase Velocity
33%
Scattered Wave
33%
Rock Sample
33%
Nonlinearity
33%
Earth and Planetary Sciences
Ultrasonics
100%
Nonlinearity
33%
Phase Velocity
33%
Wave Interaction
33%
Dilatational Wave
33%
Velocity Measurement
33%
Physics
Ultrasonics
100%
Phase Velocity
33%
Wave Interaction
33%
Dilatational Wave
33%
Velocity Measurement
33%
Agricultural and Biological Sciences
Dolomitic Limestone
100%