Characteristic analysis of ultrasonic micromotor using a 3 mm diameter piezoelectric rod
Chu X.C., Yan L., and Li L.T. Characteristic analysis of ultrasonic micromotor using a 3 mm diameter piezoelectric rod. Smart. Mater. Struct. (2004) N17-N23
Ultrasonic micro-motors manufactured by minimal piezoelectric tubes
Zhang H., Dong S.X., Zhang S.-y., Wang T., Zhang Z., and Fan L. Ultrasonic micro-motors manufactured by minimal piezoelectric tubes. Ultrasonics (2006) e603-e606
Microfabricated optical fiber with microlens that produces large field-of-view, video rate, optical beam scanning for microendoscopy applications
Seibel E.J., Fauver M., Bosworth J.C., Smithwick Q.Y.J., and Brown C.M. Microfabricated optical fiber with microlens that produces large field-of-view, video rate, optical beam scanning for microendoscopy applications. Proc. Soc. Photo - Opt. Instr. Eng. (2003) 46-55
Formulas for the frequencies including higher frequencies of uniform cantilever and free-free beams with additional masses at the ends
Haener J., and Kan W. Formulas for the frequencies including higher frequencies of uniform cantilever and free-free beams with additional masses at the ends. J. Appl. Mech. (1958) 412
Dynamic analysis of cylindrical ultrasonic motor under external excitation
Wang X.P., Ong C.J., Teo C.L., and Panda S.K. Dynamic analysis of cylindrical ultrasonic motor under external excitation. Sensor. Actuat. A (2003) 247-254
The effect of rotatory inertia and of shear deformation on the frequency and normal mode equation of uniform beams with simple and conditions
Huang T.C. The effect of rotatory inertia and of shear deformation on the frequency and normal mode equation of uniform beams with simple and conditions. ASME J. Appl. Mech. (1961) 579-584
Transverse, normal modes of vibration of a cantilever Timoshenko beam with a mass elastically mounted at the free end
Rossit C.A., and Laura P.A.A. Transverse, normal modes of vibration of a cantilever Timoshenko beam with a mass elastically mounted at the free end. J. Acoust. Soc. Am. (2001) 2837-2840
Frequency-temperature behavior of flexural quartz resonators by means of Timoshenko's model
Hantz H., Sthal F., and Bourquin R. Frequency-temperature behavior of flexural quartz resonators by means of Timoshenko's model. IEEE Trans. Ultrason. Ferroelectr. Freq. Control (2006) 2080-2085