Aerodynamic fatigue evaluation of the equipment cabin of high‐speed trains based on sub‐zone loading method-Reference-Cited by-同舟云学术

Aerodynamic fatigue evaluation of the equipment cabin of high‐speed trains based on sub‐zone loading method

Published:2024-01-14 Issue:4 Volume:47 Page:1099-1119
ISSN:8756-758X
Container-title:Fatigue & Fracture of Engineering Materials & Structures
language:en
Short-container-title:Fatigue Fract Eng Mat Struct

Author:

Xiao Heting¹²³⁴⁵,Liang Xi‐feng¹²³⁴,Sun Bo¹²³⁴,Zhou Wei¹²³⁴⁵,Zhang Qiang¹²³⁴⁵

Affiliation:

1. School of Traffic & Transportation Engineering Central South University Changsha China

2. Key Laboratory of Traffic Safety on Track (Central South University), Ministry of Education Changsha China

3. Joint International Research Laboratory of Key Technology for Rail Traffic Safety Central South University Changsha China

4. National & Local Joint Engineering Research Center of Safety Technology for Rail Vehicle Changsha Hunan China

5. The State Key Laboratory of Heavy‐duty and Express High‐power Electric Locomotive Changsha Hunan China

Abstract

AbstractThe equipment cabins of high‐speed trains encountered alternating pressure loads during operation. A fatigue evaluation methodology based on sub‐zone aerodynamic loading was proposed. Theoretical model was given between pressure load at each zone and the accompanying six structural stress components. Stress recovery matrix was formulated by finite element analysis (FEA) in sub‐zone loading cases to relate the stress to the measured pressure loads. Vehicle test gathered the pressure time‐history data of cabin sub‐zones at the head car in different ambient conditions, from which the two‐dimensional stress spectrum was derived by rain‐flow counting. The fatigue damage of welds was then assessed utilizing the Miner's and Corten Dolan's rules, yielding maximum equivalent damages of 0.72 and 0.23, respectively. The structural fatigue damage under high environmental wind conditions was 1–3 times greater than in calm weather. Nonetheless, the fatigue damage incurred by the metal matrix was significantly lower, demonstrating a substantial safety margin.

Funder

Central South University

National Key Research and Development Program of China

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1111/ffe.14230

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