Research on RecurDyn Based Simulation Method for the Brake Shoe Eccentric Wear in Railway Freight Cars

Bi Hong Lu; Yu Zhang; Bao Zhang Qu; Jian Song Huang; Yu Liu

doi:10.4028/www.scientific.net/KEM.522.467

Paper Titles

The Parametric Modeling and Contact Strength Analysis for the Wind Power Increasing Gear
p.447

The Influence of Global Warming on the Optimal Lectotype of Wind Turbine
p.453

Effect of Extreme Temperature on the Performance of Wind Turbine Blade
p.457

Precision-Location of Gang Blade and Segment of Hard Grit Based on Double Stochastic Numbers and Systematic Design
p.462

Research on RecurDyn Based Simulation Method for the Brake Shoe Eccentric Wear in Railway Freight Cars
p.467

Finite Element Analysis on the Rigidity of the Blade Carrier in a Guillotine Sheet-Metal Shear
p.472

Simulation and Optimization of Six-Bar Mechanism of Shaper Based on ADAMS
p.476

Optimal Design of Automobile Connecting Rod Basic on Finite Element
p.481

Column Jib Crane Based on ANSYS Analysis of Static Stiffness and Improving Measures
p.485

HomeKey Engineering MaterialsKey Engineering Materials Vol. 522Research on RecurDyn Based Simulation Method for...

Research on RecurDyn Based Simulation Method for the Brake Shoe Eccentric Wear in Railway Freight Cars

Abstract:

The foundation brake rigging is an important part of the railway freight cars, as it is an actuator of the rolling stock for deceleration and stop to ensure essential device for running safety. The mechanism clearance of the foundation brake rigging has a great influence on the brake shoe eccentric wear in the braking and releasing process. Especially during the braking process, the contact area between the brake shoe and the wheel tread is very small, resulting in the contact area with high stress. Actual operation manifests that on the upper side of the brake shoe wear severely. In order to build and analyze the model of the mechanism with clearance, the foundation brake rigging for the rigid-flexible coupling and multi-body dynamics simulation is carried out with the RecurDyn software, which provides the flexible body analysis module-FFlex. The method of resolving the problem is proposed, which includes the original model format conversion, the model preprocessing, constructing the rigid-flexible coupling dynamics model and analyzing the simulation results, and then providing the theoretical and technical support to improve the foundation brake system for railway freight cars by analyzing the main factors of influencing brake shoe eccentric wear.

You might also be interested in these eBooks

Progress in Advanced Manufacturing Technologies

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 522)

Pages:

467-471

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.522.467

Citation:

Cite this paper

Online since:

August 2012

Authors:

Bi Hong Lu, Yu Zhang, Bao Zhang Qu, Jian Song Huang, Yu Liu

Keywords:

Analysis of Mechanism, Brake Shoe, Foundation Brake Rigging, Recurdyn, Rigid-Flexible Coupling

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] J. H Liu, F. Li and W. B Nie: Railway Locomotive & Car. Vol. 26 (2006). No. 3, pp.10-14, (In Chinese).

Google Scholar

[2] Y. J Tian: Diesel Locomotive. Vol. 32 (2006). No. 6, pp.47-48, (In Chinese).

Google Scholar

[3] F. L: Diesel Locomotive. Vol. 38 (2011). No. 3, pp.41-43, (In Chinese).

Google Scholar

[4] P. F Lu: The Rigid-Flexible Multi-body Dynamic Simulation of Dynamic Compactor (MS, Dalian University of Technology, China 2007), pp.48-49.

Google Scholar

[5] B.Z. Qu: Journal of Dalian Jiaotong University Vol. 29 (2008). No. 2, pp.12-16, (In Chinese).

Google Scholar

[6] X. J Jiao, X. W Zhang and B. B Peng: RecurDyn Multi-body System to Optimize Simulation Technology (Tsinghua University Press, China 2010), pp.200-202.

Google Scholar