Loading…
This event has ended. Visit the official site or create your own event on Sched.
Welcome to ICSV26!
Back To Schedule
Wednesday, July 10 • 15:50 - 16:10
POWER FLOW ANALYSIS OF BEAM-PLATE COUPLED STRUCTURES BY FINITE ELEMENT METHOD

Log in to save this to your schedule, view media, leave feedback and see who's attending!

Feedback form is now closed.
The traditional isolation system model cannot fully consider the influence of the flexibility of subsystem, quality of isolator, and isolator layout on vibration transmission, and was not suitable for modelling large-scale complex mechanical equipment at this stage. In this paper, the machine and foundation are modelled by flexible irregular plates. The inclined spatial beam is used to simulate the inclined isolator. Then a new fully flexible inclined isolation system is established. Combined with the finite element method, the expression of the power flow transfer and the power flow value of each position are directly obtained. By visual processing, the power flow distribution and transmission path are obtained, both are important guiding significance for the prediction on vibration transmission of mechanical equipment at the present stage.

Moderators
avatar for Simon Jones

Simon Jones

Associate Professor, Rose-Hulman Institute of Technology
Professional interests include undergraduate engineering education, finite element modeling, ground-borne vibrations, vibrations of musical instruments, and dynamics of toys.
GM

Guilhem Michon

Professor, ISAE-SUPAERO

Authors

Wednesday July 10, 2019 15:50 - 16:10 EDT
St-Laurent 7
  T07 Struct. dyn. & nonlin. vib., RS03 Struct ac & vibr