A parametric study of golf car and personal transport vehicle braking stability and their deficiencies

This paper describes research and parametric analyses of braking effectiveness and directional stability for golf cars, personal transport vehicles (PTVs) and low speed vehicles (LSVs). It is shown that current designs, which employ brakes on only the rear wheels, can lead to rollovers if the brakes...

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Bibliographic Details
Published in:Accident analysis and prevention 2009-07, Vol.41 (4), p.839-848
Main Authors: Seluga, Kristopher J., Baker, Lowell L., Ojalvo, Irving U.
Format: Article
Language:English
Subjects:
Accidents - statistics & numerical data
Braking
Downhill braking
Equipment Safety - statistics & numerical data
Golf
Golf car
Humans
Low speed vehicle
Models, Statistical
Models, Theoretical
Off-Road Motor Vehicles - statistics & numerical data
Rollover
United States
Yaw stability
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Summary:This paper describes research and parametric analyses of braking effectiveness and directional stability for golf cars, personal transport vehicles (PTVs) and low speed vehicles (LSVs). It is shown that current designs, which employ brakes on only the rear wheels, can lead to rollovers if the brakes are applied while traveling downhill. After summarizing the current state of existing safety standards and brake system designs, both of which appear deficient from a safety perspective, a previously developed dynamic simulation model is used to identify which parameters have the greatest influence on the vehicles’ yaw stability. The simulation results are then used to parametrically quantify which combination of these factors can lead to yaw induced rollover during hard braking. Vehicle velocity, steering input, path slope and tire friction are all identified as important parameters in determining braking stability, the effects of which on rollover propensity are presented graphically. The results further show that when vehicles are equipped with front brakes or four-wheel brakes, the probability of a yaw induced rollover is almost entirely eliminated. Furthermore, the parametric charts provided may be used as an aid in developing guidelines for golf car and PTV path design if rear brake vehicles are used.
ISSN:0001-4575
1879-2057
DOI:10.1016/j.aap.2009.04.017