• Title/Summary/Keyword: Steering return-ability

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Sensitivity Analysis of Steering Wheel Return-ability at Low Speed

  • Cho, HyeonSeok;Lee, ByungRim;Chang, SeHyun;Park, YoungDae;Kim, MinJun;Hwang, SangWoo
    • Transactions of the Korean Society of Automotive Engineers
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    • v.25 no.2
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    • pp.167-178
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    • 2017
  • The steering wheel of a vehicle has a typical characteristic of automatically returning to its neutral state when the driver releases it. Steering returnability originated from the tire forces and kingpin moments. It is proportional to the reaction torque that is generated through the rack and column, which are dependent on suspension and steering geometry. It is also important to accurately predict and design it because steering returnability is related to steering performance. In this study, a detailed multibody dynamics model of a vehicle was designed by using ADAMS/Car and simulated for steering returnability. In addition, a tolerance analysis of the chassis system in terms of part dimension and properties has been performed in order to minimize the design parameters. The sensitivity of the selected design parameters was then analyzed via Design of Experiments(DOE). As a result, we were able to obtain the main parameters through a contribution analysis. It can be used to predict steering returnability and improve its performance, which is represented by the angle of restoration and laterality.

Improvement of the Steering Feel of an Electric Power Steering System by Torque Map Modification

  • Lee Man Hyung;Ha Seung Ki;Choi Ju Yong;Yoon Kang Sup
    • Journal of Mechanical Science and Technology
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    • v.19 no.3
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    • pp.792-801
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    • 2005
  • This paper discusses a dc motor equipped electric power steering (EPS) system and demonstrates its advantages over a typical hydraulic power steering (HPS) system. The tire-road interaction torque at the steering tires is calculated using the 2 d.o.f. bicycle model, in other words by using a single-track model, which was verified with the J-turn test of a real vehicle. Because the detail parameters of a steering system are not easily acquired, a simple system is modeled here. In previous EPS systems, the assisting torque for the measured driving torque is developed as a boost curve similar to that of the HPS system. To improve steering stiffness and return-ability of the steering system, a third-order polynomial as a torque map is introduced and modified within the preferred driving torques researched by Bertollini. Using the torque map modification sufficiently improves the EPS system.