Calculation of Nonlinear Stiffness of Rubber Pad under Different Temperatures and Prepressures-Reference-Cited by-同舟云学术

Calculation of Nonlinear Stiffness of Rubber Pad under Different Temperatures and Prepressures

Published:2020-07-04 Issue: Volume:2020 Page:1-10
ISSN:1070-9622
Container-title:Shock and Vibration
language:en
Short-container-title:Shock and Vibration

Author:

Xu Chuanbo¹²,Chi Mao-Ru¹^ORCID,Dai Liangcheng¹^ORCID,Guo Zhaotuan¹

Affiliation:

1. State Key Laboratory of Traction Power, Southwest Jiaotong University, Chengdu, China

2. Henan Engineering Research Center of Rail Transit Intelligent Security, Zhengzhou Railway Vocational & Technical College, Zhengzhou, China

Abstract

The static stiffness of rubber springs is affected by temperature and prepressure. In this thesis, the relationship between Young’s modulus and temperature of rubber was studied, and the quantitative relationship between them was determined. The approximate formula for calculating the static stiffness of rubber pads was further modified, and the ellipse approximation method and convexity coefficient correction method were proposed. In addition, the influence of temperature on geometric nonlinearity was considered. The formula for calculating nonlinear stiffness includes two variables: temperature and prepressure. The results of tests and theoretical calculations demonstrate that the nonlinear formula can be a good approximation and that it can meet the requirements of engineering applications.

Funder

National Natural Science Foundation of China

Publisher

Hindawi Limited

Subject

Mechanical Engineering,Mechanics of Materials,Geotechnical Engineering and Engineering Geology,Condensed Matter Physics,Civil and Structural Engineering

Link

http://downloads.hindawi.com/journals/sv/2020/8140782.pdf

Reference27 articles.

1. A nonlinear rubber spring model for the dynamics simulation of a high-speed train

2. A Fractional Derivative Model for Rubber Spring of Primary Suspension in Railway Vehicle Dynamics

3. Modeling and parameter identification of amplitude- and frequency-dependent rubber isolator

4. A nonlinear rubber spring model containing fractional derivatives for use in railroad vehicle dynamic analysis

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