Please log in

Paper / Information search system

日本語

ENGLISH

Help

Please log in

Cart

Menu
  1. Home
  2. Search
  3. Details
  • Summary & Details

Medium and High-Frequency Vibration Analysis of Thin Plates by a Hybrid Distributed Transfer Function Method

Delivery
Provide download link
Format
PDF
Price
Non-members (tax incl.):¥6,600 Members (tax incl.):¥5,280
Paper/Info type
SAE Paper

No.2021-01-1052

Pages
1-11(Total 11 p)
Date of publication
Aug 2021
Publisher
SAE International
Language
English
Event
Noise and Vibration Conference & Exhibition

Detailed Information

Author(E)1) Yichi Zhang, 2) Bingen Yang
Affiliation(E)1) University of Southern California, 2) University of Southern California
Abstract(E)Vibrations of plates are widely seen in various applications of automobile, aerospace, mechanical and civil engineering. Vibration analysis of plates in medium and high-frequency regions plays an important role in optimal design and safe operation of machines and structures in these applications. Medium and high-frequency vibration analysis of plates is usually performed by using numerical methods. Proposed in this paper is a new analytical solution method for mid- and high-frequency analysis of thin rectangular plates modeled by the Kirchhoff-Love plate theory. In the development, analytical solutions for a class of thin plates are obtained based on a hybrid formulation that combines the Distributed Transfer Function Method (DTFM) and modal expansion. The proposed method, which is an extension of the DTFM for one-dimensional continua, is called the hybrid Distributed Transfer Function Method (hybrid DTFM). The hybrid DTFM is simple and flexible in treating general loadings and boundary conditions. Different from existing analytical solutions, like the Naiver solution and the Lévy solution, the new method can handle boundary excitations with ease and is applicable to plates with partially distributed spring and damping. Unlike numerical methods, such as the Finite Element Analysis (FEA) and Energy Flow Analysis (EFA), the new method is able to deliver local displacement, bending moment, and shear force more efficiently in medium and high-frequency regions. The proposed hybrid DTFM is illustrated in numerical examples, where the accuracy and efficiency of the method is validated, and the flexibility of the method in different loading cases is demonstrated. The hybrid DTFM can be extended to medium and high-frequency vibration analysis of more complex plate structures.

About search

close

How to use the search box

You can enter up to 5 search conditions. The number of search boxes can be increased or decreased with the "+" and "-" buttons on the right.
If you enter multiple words separated by spaces in one search box, the data that "contains all" of the entered words will be searched (AND search).
Example) X (space) Y → "X and Y (including)"

How to use "AND" and "OR" pull-down

If "AND" is specified, the "contains both" data of the phrase entered in the previous and next search boxes will be searched. If you specify "OR", the data that "contains" any of the words entered in the search boxes before and after is searched.
Example) X AND Y → "X and Y (including)"  X OR Z → "X or Z (including)"
If AND and OR searches are mixed, OR search has priority.
Example) X AND Y OR Z → X AND (Y OR Z)
If AND search and multiple OR search are mixed, OR search has priority.
Example) W AND X OR Y OR Z → W AND (X OR Y OR Z)

How to use the search filters

Use the "search filters" when you want to narrow down the search results, such as when there are too many search results. If you check each item, the search results will be narrowed down to only the data that includes that item.
The number in "()" after each item is the number of data that includes that item.

Search tips

When searching by author name, enter the first and last name separated by a space, such as "Taro Jidosha".