A New Experimental Modal Parameter Estimation Method for Cylindrical Structures by Standing Wave Decomposition and Application to Tire Modelling.

DOI Web Site Web Site 4 Citations 6 References

Bibliographic Information

Other Title
  • 円筒形構造物に対する定常波離散化による新しい実験的モード特性同定法およびタイヤのモデル化への適用
  • エントウケイ コウゾウブツ ニ タイスル テイジョウハ リサンカ ニ ヨル アタラシイ ジッケンテキ モード トクセイ ドウテイホウ オヨビ タイヤ ノ モデルカ エ ノ テキヨウ

Search this article

Abstract

This paper presents a new experimental modal parameter estimation method to be applied to point symmetric structures, and shows an application to modeling of tires for passenger-cars. The method decomposes frequency response functions into the components of individual natural modes based upon Fourier transform algorithm in the circumferential direction of spatial domain at first, and then determines the modal parameters using the components of each natural mode. In this paper, we explain the theory of the method, and present a challenging application of the method to an actual tire for passenger-cars. The tire is experimentally identified about its dynamic characteristics under the free-free boundary condition, and the result of the identification is expressed as a set of spatial matrices. The number of degrees of freedom of the identified spatial matrices is 152. Finally, in order to demonstrate the validity of this model, we carry out a prediction analysis of the tire under a clamping boundary condition, and compare the result with experiment.

Journal

Citations (4)*help

See more

References(6)*help

See more

Keywords

Details 詳細情報について

Report a problem

Back to top