Methodology for Tripped Vehicle Rollover Testing and Analysis of Experimental Results 940225
This paper presents the results from an experimental project involving the full-scale testing of vehicles in a variety of maneuvers. The maneuvers include tripped rollover maneuvers resulting from impacts of eight test vehicles with both soil and curb pavement discontinuities. The reduced data from experimental tests form the impact condition variables which are augmented with vehicle design parameters in the analysis of results. The data are analyzed in datasets created according to such criteria as maneuver type, maneuver result, and type of terrain discontinuity. These results are investigated on the basis of mean values and coefficients of correlation.
Results throughout the study support the conclusion that soil-tripped rollover maneuvers are qualitatively different than curb-tripped rollover maneuvers. The results obtained confirm that implementation of anti-lock braking systems and traction control systems reduces a risk of rollover when vehicle encounters a terrain discontinuity. Also covered is the processing of experimental results into a form suitable for computer simulation validation and the analysis of vehicle rollover behavior based upon obtained results.
Citation: Nalecz, A. and Lu, Z., "Methodology for Tripped Vehicle Rollover Testing and Analysis of Experimental Results," SAE Technical Paper 940225, 1994, https://doi.org/10.4271/940225. Download Citation
Author(s):
Andrzej G. Nalecz, Zheng Lu
Pages: 30
Event:
International Congress & Exposition
ISSN:
0148-7191
e-ISSN:
2688-3627
Also in:
Concepts in Vehicle Dynamics and Simulation-SP-1016, Evaluations in Two-Stroke Engines and Their Emissions-SP-1064, SAE 1994 Transactions: Journal of Passenger Cars-V103-6
Related Topics:
Anti-lock braking
Rollover accidents
Computer simulation
Control systems
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