Reducing train-induced ground-borne vibration by vehicle design and maintenance
Journal article, 2015

Wheel out-of-roundness (OOR) and unsprung mass are key railway vehicle parameters influencing the dynamic wheel?rail contact loads and inducing ground-borne vibration. For a given combination of vehicle speed, track/soil conditions and wheel/rail irregularity level, reducing the unsprung mass leads to a reduction in contact loads and vibration at frequencies above the resonance of the wheelset on the primary suspension. Guidelines for reducing unsprung mass are presented, including alternative designs for the wheelset and the suspension of the mechanical drive system. For locomotives and powered bogies, the potential for reduced vibration level is 2-4 dB by improving the drive suspension design. Based on an extensive field measurement campaign, where the influence of several different types of vehicle on vibration level was measured, it was found that the maximum vibration levels were generated by freight locomotives. For several freight locomotives of the same type, a high statistical variance (up to 20 dB) in measured vibration level was observed indicating a significant spread in wheel tread conditions and OOR. Early detection of out-of-round wheels and corrective wheel maintenance are important measures to reduce vibration levels.

Field measurement

Wheel out-of-roundness

Railway vehicle design

Maintenance

Ground-borne vibration

Unsprung mass

Author

Jens Nielsen

Dynamics

A. Mirza

Bombardier Transportation

S. Cervello

Lucchini RS

P. Huber

PROSE AG

R. Müller

Schweizerische Bundesbahnen (SBB)

B. Nelain

Vibratec

P. Ruest

Bombardier Transportation (Switzerland) AG

International Journal of Rail Transportation

2324-8378 (ISSN) 2324-8386 (eISSN)

Vol. 3 1 17-39

Subject Categories

Mechanical Engineering

DOI

10.1080/23248378.2014.994260

More information

Latest update

9/6/2018 2