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Controlled Multibody Systems with Magnetostrictive Electric Generators

Viktor Berbyuk (Institutionen för tillämpad mekanik, Mekaniska system)
Proc. The ECCOMAS Thematic Conference Multibody Dynamics 2005 on Advances in Computational Multibody Dynamics, Madrid, June 21-24, 2005, Eds. J.M. Goicolea, J. Cuardrado and J.C. Garcia Orden. p. 1-14. (2005)
[Konferensbidrag, refereegranskat]

The proposed paper addresses the problem of modeling and analysis of controlled multibody systems with embedded magnetostrictive transducers. Main emphasis is put on the modeling of the considered mechatronic systems for applications in the field of power harvesting from vibrations, namely vibration-to-electric energy conversion, using novel giant magnetostrictive materials. Mathematical model of the considered mechatronic system has been developed. It comprises the constitutive equations of magnetoelastic behavior of magnetostrictive rod (active element of transducers), standard formulae of electromagnetism for induced voltage and current in the pick-up coil due to variation of magnetic field intensity, and finally the equations of motion of multibody system itself. The last one can be derived using one of the well-known multibody dynamics formalism. Assuming that massinertia parameters of magnetostrictive transducers are negligible small the inverse dynamics based algorithm has been proposed for modeling the controlled motion of multibody systems with embedded transducers. This algorithm is also suitable to evaluate electrical power output of magnetostrictive electric generators for different controlled motions of the system and to optimize the generators’ design. The inverse dynamics based algorithm was implemented in Matlab/Simulink with user friendly interface. Its efficiency has been confirmed by simulation of performance of different magnetostrictive electric generators under the periodic excitations exerted by the “hosting” multibody system.

Nyckelord: Magnetostriction, Magnetomechanical effect, Power harvesting from vibration, Villari effect, Magnetostrictive generator, Terfenol-D, Controlled multibody system

Published by Universidad Politécnica de Madrid, 2005.

Denna post skapades 2005-12-03. Senast ändrad 2015-12-17.
CPL Pubid: 5687


Institutioner (Chalmers)

Institutionen för tillämpad mekanik, Mekaniska system (2005-2005)


Teknisk mekanik

Chalmers infrastruktur