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Ultrasonic probes for high temperature immersion measurements
32
Citations
10
References
2001
Year
Biomedical AcousticsEngineeringMechanical EngineeringBiomedical EngineeringMedical InstrumentationPower UltrasoundClad Buffer RodUltrasonic ProbesInstrumentationUltrasound PhysicsAcoustic MicroscopyFocused UltrasoundPhysicsUltrasonicsAcoustic PropagationExposimetryUltrasoundHeat TransferPiezoelectric TransducersTransducer PrincipleDiagnostic AcousticsLaser UltrasoundMedicineThermal EngineeringHigh Temperature MeasurementsMicromachined Ultrasonic Transducer
The importance of signal‑to‑noise ratio in pulse‑echo measurements is highlighted. The study presents ultrasonic probes designed for high‑temperature immersion measurements. The probes comprise piezoelectric transducers and buffer rods, with a semi‑spherical concave end for focusing, operate at 5–9 MHz, and are used in pulse‑echo mode with mechanical raster scanning in silicone oil. The probes function up to 215 °C without cooling and produce ultrasonic images via mechanical raster scanning in silicone oil.
Ultrasonic probes for high temperature measurements in immersion are presented. These probes consist of piezoelectric transducers and buffer rods, and may be operated in the pulse echo mode. The probes can operate to temperatures as high as 215 °C without requiring a cooling system. For imaging purposes, one end of the clad buffer rod is machined into a semi-spherical concave shape, of which the purpose is to focus the ultrasound. The operating frequency is between 5 and 9 MHz. Ultrasonic images, produced using a mechanical raster scan with the probes fully immersed in silicone oil at elevated temperatures, are presented. The importance of the signal-to-noise ratio in the pulse-echo measurement is discussed.
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