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Ultrasonic sensor for high temperature gas filled vessels
J. S. Sandman
, B. R. Tittmann
Engineering Science and Mechanics
Materials Research Institute (MRI)
Research output
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Chapter in Book/Report/Conference proceeding
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Conference contribution
1
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Scopus citations
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Keyphrases
Energy Loss
100%
Ultrasonic Sensor
100%
Pressure Boundary
100%
Mason Model
100%
Acoustic Matching Layer
100%
High-temperature Gas
100%
Gas-filled
100%
High Energy
50%
Ambient Air
50%
Matrix Laboratory (MATLAB)
50%
High Temperature
50%
Finite Element Method
50%
Acoustics
50%
Numerical Simulation
50%
Acoustic Impedance
50%
Matching Layer
50%
Ultrasonic Transducer
50%
Ultrasonic
50%
Piezoelectric Element
50%
Low Impedance
50%
Backing Material
50%
Internal Reflection
50%
High Pressure High Temperature
50%
Ultrasonic Wave Propagation
50%
Steel Plate
50%
Finite Element Program
50%
Steel Container
50%
Gaseous Medium
50%
Waveform Change
50%
One-dimensional Target
50%
Indication System
50%
Housing Design
50%
High-temperature Steel
50%
Engineering
Ultrasonics
100%
Matching Layer
100%
Ultrasonic Sensor
100%
Energy Dissipation
66%
Finite Element Method
66%
Transducer
66%
Transmissions
33%
Ambient Air
33%
Piezoelectric
33%
Experimental Result
33%
Computer Simulation
33%
One Dimensional
33%
Steel Plate
33%
Piezoelectric Element
33%
Internal Reflection
33%
Gaseous Medium
33%