Control of Vibration of Mechanical Systems Using Electrical Subsystems

Katarzyna Białas; Andrzej Buchacz; Damian Gałęziowski

doi:10.4028/www.scientific.net/AMR.1036.523

Paper Titles

Simulating the Longitudinal Dynamics of a Tracked Vehicle
p.499

On Transient Queue-Size Distribution in a Single-Machine Production System with Breakdowns
p.505

Modelling of an Electric Circuit’s Type Influence on Dynamic Flexibility of System with Passive Vibration Damping
p.511

CMM Design Based on Fundamental Design Principles
p.517

Control of Vibration of Mechanical Systems Using Electrical Subsystems
p.523

Analyzing the Interdependence between a 4x4 Automobile’s Slip and the Self-Generated Torque within its Transmission
p.529

Diagnose Method Based on Spectral Analysis of Measured Parameters
p.535

The Analysis of Hydrogen Absorption by the Fatigue Crack in Changeable Loaded Structure
p.541

Protection of Hydraulic Systems against Dynamic Loads Using Multi-Valve Approach
p.547

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1036Control of Vibration of Mechanical Systems Using...

Control of Vibration of Mechanical Systems Using Electrical Subsystems

Abstract:

The reduction or elimination of undesired vibration can be achieved by applying various methods. The most commonly applied methods are: passive, semi-active and active.This work presents methods of reduction of the vibration of mechanical systems by means of active elements as well as examples of implementation of reduction of vibration by means of electrical elements. This work also introduces a structural and parametric synthesis, which can be defined as the design of systems meeting specific requirements. These requirements refer to the frequency values of the systems vibration. The presented approach i.e. a non-classical synthetic method applied in designing mechanical systems, one (as early as at the design and construction stage) may verify future systems. As a result of the synthesis one can obtain the structure and parameters of the system of required properties. The synthesis may also be applied to modify the already existing systems in order to achieve a desired result.

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Periodical:

Advanced Materials Research (Volume 1036)

Pages:

523-528

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1036.523

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Online since:

October 2014

Authors:

Katarzyna Białas*, Andrzej Buchacz, Damian Gałęziowski

Keywords:

Active Elements, Analysis, Passive Elements, Reduction of Vibrations, Synthesis

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* - Corresponding Author

References

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