Brake Timing Measurements for a Tractor-Semitrailer Under Emergency Braking

Document Number: 2009-01-2918

Date Published: October 2009

Author(s):
Fawzi P. Bayan - SEA Limited
Anthony D. Cornetto III - SEA Limited
Ashley Dunn - SEA Limited
Eric Sauer - SEA Limited

Abstract:
The timing and associated levels of braking between initial brake pedal application and actual maximum braking at the wheels for a tractor-semitrailer are important parameters in understanding vehicle performance and response. This paper presents detailed brake timing information obtained from full-scale instrumented testing of a tractor-semitrailer under various conditions of load and speed. Brake timing at steer, drive and semitrailer brake positions is analyzed for each of the tested conditions. The study further seeks to compare the full-scale test data to predicted response from detailed heavy truck computer vehicle dynamics simulation models available in commercial software packages in order to validate the model's brake timing parameters.

The brake timing data was collected during several days of full-scale instrumented testing of a tractor-semitrailer performed at the Transportation Research Center, in East Liberty, Ohio. Instrumented braking tests were performed at two speeds of 13.4 m/s (30 mph) and 27 m/s (60 mph) for 4 configurations including a bobtail condition, an unloaded semitrailer configuration, a half-loaded semitrailer condition and a full-gross vehicle weight condition. These straight-line braking tests were performed on dry concrete surfaces. In addition, brake-in-turn tests and stopping tests were performed on a wet jennite surface to evaluate the vehicle response and handling for ABS and non-ABS configurations.

The effects of test conditions on brake timing are analyzed and are presented in this paper. The various braking configurations were simulated using detailed test parameters including brake system parameters at each wheel. Simulated vehicle kinematics were then validated against the full-scale test results and the simulation process and choices are discussed. Brake lag (delay) times and first-order model time constants are offered and discussed. The findings of this study are also compared to other testing and simulation results published in literature on this topic.

File Size: 196K
Product Status: In Stock

See other papers presented at SAE 2009 Commercial Vehicle Engineering Congress & Exhibition, October 2009, Rosemont, IL, USA, Session: Vehicle Dynamics Simulation (Part 1 of 2)

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