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Influence of Static Prestress on the Characteristics of Bolt-Clamped Langevin-Type Transducers
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Bolt-clamped Langevin-type transducers (BLTs) are widely used as powerful
vibration sources in high-power ultrasonic applications. In the structure
of a BLT, static compressional prestress is imposed on piezoelectric
ceramic elements by clamping, to compensate for their weakness to tensile
stress. Nevertheless, no report has been made about the clamping effects
on the characteristics of a BLT with a reasonable estimation of the prestress.
Previous works on material property change of piezoelectric ceramics caused
by static compressional stress have always presumed a groundless uniformity of
stress distribution in the objects examined. The authors have investigated
the effects by some experiments and numerical simulations with the use
of the finite-element analysis system to estimate precisely the prestress.
As a result of these experiments, the prestress has been
found to reduce the electromechanical coupling factor of the BLT. Estimation
of the prestress is considered indispensable for designing BLTs, although
the microscopic mechanism of the piezoelectricity reduction is
not yet clarified.
Title: Influence of Static Prestress on the Characteristics of Bolt-Clamped Langevin-Type Transducers
Description:
Bolt-clamped Langevin-type transducers (BLTs) are widely used as powerful
vibration sources in high-power ultrasonic applications.
In the structure
of a BLT, static compressional prestress is imposed on piezoelectric
ceramic elements by clamping, to compensate for their weakness to tensile
stress.
Nevertheless, no report has been made about the clamping effects
on the characteristics of a BLT with a reasonable estimation of the prestress.
Previous works on material property change of piezoelectric ceramics caused
by static compressional stress have always presumed a groundless uniformity of
stress distribution in the objects examined.
The authors have investigated
the effects by some experiments and numerical simulations with the use
of the finite-element analysis system to estimate precisely the prestress.
As a result of these experiments, the prestress has been
found to reduce the electromechanical coupling factor of the BLT.
Estimation
of the prestress is considered indispensable for designing BLTs, although
the microscopic mechanism of the piezoelectricity reduction is
not yet clarified.
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