Vibrational power flow in beam-plate structures Part I: Basic theory

  • Chuijie Yi Shandong Institute of Technology
  • Peter Dietz Institut für Maschinenwessen, TU-Clausthal
  • Xuanli Hu AUDIAG, I/EG-31

Abstract

This paper presents the expressions of Vibrational Power Flow (VPF) in Beam-Plate Structures (BPS). These expressions are derived based on structural dynamics. BPS is composed of a constant cross-section beam and a thin fiat rectangular plate. In expressions the plate is four-edge simply suppored and four-edge fixedly supported, respectively. The numerical calculation of these expressions is implemented. Meanwhile, the different parameters of beam and plate are also considered in the calculation. Finally, the numerical solutions of VPF in BPS are compared with the corresponding the measured VPF. The numerical VPFs have a good agreement with the measured VPF. The results of VPF provide a tool for analyzing vibrational energy transmission between the support roller and the armored plate of tracked vehicles.

Keywords

Vibrational Power Flow (VPF), Mechanical Mobilities and Beam-Plate Structures (BPS).,

References

[1] C. Yi, C. Wu, G. Lu and X. Huang. Techniques of interior noise control in armored personnel carriages, Acta Armamentarii, 16: 73- 77, 1995.
[2] H. Zuo. Analytical Method and Pmctical Application of Mechanical Impedance, China Machine Press, 1 st edition, 1987.
[3] C. Yi, T. Chen, H. Huang and W. Li. Power flow in assemlies of connected plates with bean bag damping, Acta Mechanica Sinica, 27:4, 495-500, 1995.
[4] Z. Zheng. Mechanical Vibration, China Machine Press, 1st edition, 1989.
[5] Z. Cao. Vibmtion Theory of Plate and Shell. China Railway Press, 1st edition, 1989.
Published
May 29, 2023
How to Cite
YI, Chuijie; DIETZ, Peter; HU, Xuanli. Vibrational power flow in beam-plate structures Part I: Basic theory. Computer Assisted Methods in Engineering and Science, [S.l.], v. 5, n. 4, p. 345-359, may 2023. ISSN 2956-5839. Available at: <https://cames.ippt.pan.pl/index.php/cames/article/view/1332>. Date accessed: 22 dec. 2024.
Section
Articles