Use of the Piezoelectric Gauge for Internal Friction Measurements
- 1 July 1951
- journal article
- Published by AIP Publishing in Review of Scientific Instruments
- Vol. 22 (7) , 503-509
- https://doi.org/10.1063/1.1745981
Abstract
The addition of an auxiliary quartz crystal to the usual composite piezoelectric resonator provides a convenient strain gauge, which simplifies the measurement procedure and permits the evaluation of amplitude dependent decrements over a wide range of strain amplitudes. A unique feature of the new procedure is that virtually instantaneous values of the decrement are obtained, thus bringing transient internal friction phenomena under observation. Mechanical resonance frequencies may be precisely determined for high as well as low decrement specimens. The numerical evaluation of terms is carried out for a recommended driver‐gauge construction of 18.5° X‐cut quartz bars.Keywords
This publication has 22 references indexed in Scilit:
- Young's Modulus of Elasticity of Fibers and Films by Sound Velocity MeasurementsThe Journal of the Acoustical Society of America, 1944
- The Variation with Temperature of the Principal Elastic Moduli of NaCl near the Melting PointPhysical Review B, 1942
- The Effect of Stress on Internal Friction in Polycrystalline CopperPhysical Review B, 1941
- The Dispersion of Supersonic Waves in Cylindrical Rods of Polycrystalline Silver, Nickel, and MagnesiumPhysical Review B, 1940
- The Variation of the Elastic Constants of Crystalline Sodium with Temperature Between 80°K and 210°KPhysical Review B, 1938
- The Variation of the Internal Friction and Elastic Constants with Magnetization in Iron. Part IPhysical Review B, 1936
- The Variation of Young's Modulus with Magnetization and Temperature in NickelPhysical Review B, 1936
- The Variation of the Adiabatic Elastic Moduli of Rocksalt with Temperature Between 80°K and 270°KPhysical Review B, 1936
- A New Method for Measuring Elastic Moduli and the Variation with Temperature of the Principal Young's Modulus of Rocksalt Between 78°K and 273°KPhysical Review B, 1934
- On Electrically-maintained VibrationsProceedings of the Physical Society of London, 1914