Suscripción a Biblioteca: Guest
Portal Digitalde Biblioteca Digital eLibros Revistas Referencias y Libros de Ponencias Colecciones
Critical Reviews™ in Biomedical Engineering
SJR: 0.207 SNIP: 0.376 CiteScore™: 0.79

ISSN Imprimir: 0278-940X
ISSN En Línea: 1943-619X

Volumes:
Volumen 47, 2019 Volumen 46, 2018 Volumen 45, 2017 Volumen 44, 2016 Volumen 43, 2015 Volumen 42, 2014 Volumen 41, 2013 Volumen 40, 2012 Volumen 39, 2011 Volumen 38, 2010 Volumen 37, 2009 Volumen 36, 2008 Volumen 35, 2007 Volumen 34, 2006 Volumen 33, 2005 Volumen 32, 2004 Volumen 31, 2003 Volumen 30, 2002 Volumen 29, 2001 Volumen 28, 2000 Volumen 27, 1999 Volumen 26, 1998 Volumen 25, 1997 Volumen 24, 1996 Volumen 23, 1995

Critical Reviews™ in Biomedical Engineering

DOI: 10.1615/CritRevBiomedEng.v29.i3.140
pages 520-534

Investigation and Development of Ultrasonic Vibrodrives for Traumatology

S. E. Kvashnin
Medico-technical Information Technologies Department, N. E. Bauman Moscow State University of Technology, Moscow, Russia
E. V. Bosova
Medico-technical Information Technologies Department, N. E. Bauman Moscow State University of Technology, Moscow, Russia
A. V. Grigor'ev
Medico-technical Information Technologies Department, N. E. Bauman Moscow State University of Technology, Moscow, Russia

SINOPSIS

An investigation was made of the dynamics of ultrasonic vibrodrills with a common source of rotational and ultrasonic reciprocal motions. The source was constructed on the basis of an electroacoustic transducer of longitudinal vibrations. The dependences of power, rotation speed, and flutter rates were plotted for various pushers as a function of biological tissue drag torque. The results obtained allowed us to determine the optimal parameters of basic ultrasonic modes used in treating biological tissues. Apart from that, ultrasonic vibrodrill pilot models, which are new in principle, are presented. They were designed to be applied in traumatology. A distinguishing feature of these vibrodrills is that an electroacoustic transducer of longitudinal vibrations is a source of two motion types: rotational and ultrasonic reciprocal.


Articles with similar content:

Reviews of Ultrasonic Vibrodrives for Traumatology
Critical Reviews™ in Biomedical Engineering, Vol.45, 2017, issue 1-6
S. E. Kvashnin, E. V. Bosova, A. V. Grigor'ev
Identification of Stress-Strained States of Compound Cylinder by Known Displacements
Journal of Automation and Information Sciences, Vol.41, 2009, issue 6
Ivan V. Sergienko, Vasiliy S. Deineka
Method of Structural Parametric Synthesis of Complex Ergatic Distributed Informational-Controlling System of Response on Conflict Situation
Journal of Automation and Information Sciences, Vol.46, 2014, issue 3
Yuriy G. Danyk , Alexey A. Pysarchuk
METHOD OF COMPUTATIONS OF LOADS AT THE DESIGN OF ROTOR UNITS AND HELICOPTER CONTROL SYSTEM
TsAGI Science Journal, Vol.46, 2015, issue 6
Andrei Yurievich Barinov, Nikolai Serafimovich Pavlenko
Energy Characteristics of Secondary Vortical Domain of Axisymmetric Hydrodynamic Sound Source
International Journal of Fluid Mechanics Research, Vol.31, 2004, issue 1
A. A. Nazarenko, Yu. M. Dudzinskii