Studies on Analytical Determination of the Vibrations of a Load, Twice Elastically Suspended from an Elastic Beam via Another Load

Authors

  • Vassil Zlatanov Department of Technical Mechanics, University of Food Technologies, Plovdiv, Bulgaria.
  • Stefan Bachvarov Department of Mechanics, Technical University, Sofia, Bulgaria.
  • Snezhana Atanasova Department of Technical Mechanics, University of Food Technologies, Plovdiv, Bulgaria.

DOI:

https://doi.org/10.9734/bpi/aaer/v7/1982F

Keywords:

Analytical methods, suspended loads, vibration, dynamic model, elastic beam

Abstract

In this Chapter we analyze the dynamics of mechanical systems with suspended loads, such as bridge cranes, monorail hoists, mining machinery, etc. The considered mechanical system is composed of a load, twice elastically suspended from an elastic beam via another load. The goal is to determine the vibrations of the mechanical system with suspended loads. Two dynamical models which respect the kinetic energy of the elastic ropes are built for the system and their corresponding differential equations of motion are obtained. The vibration of the mechanical system is described by a coupled system of two ordinary and n(n=1,2,...) partial differential equations. The nonlinear restoring forces are linearized via the method of equivalent linearization and an analytical solution is obtained for the differential equations of both dynamical models simultaneously, using general initial conditions. The constants of integration are determined analytically for a specific instance of the initial conditions, which reflects an important practical case. The mechanical system is simulated numerically with initial conditions corresponding to the typical regimes of operation of real systems with suspended loads.

Published

2021-05-06

How to Cite

Vassil Zlatanov, Stefan Bachvarov, & Snezhana Atanasova. (2021). Studies on Analytical Determination of the Vibrations of a Load, Twice Elastically Suspended from an Elastic Beam via Another Load. Advanced Aspects of Engineering Research Vol. 7, 86–104. https://doi.org/10.9734/bpi/aaer/v7/1982F