DESIGN OF A NEW ANTI-LOCK BRAKING SYSTEM FOR MOTORCYCLES

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SHAMSMOHAMADI M.; SOHEILI M.; NASIRI S.; RAJABIRAD M.J.; TORABI M.; JAVAM N.

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Journal Paper

Paper Information

Journal: INTERNATIONAL JOURNAL OF ADVANCED DESIGN AND MANUFACTURING TECHNOLOGY Year:2011 | Volume:5 | Issue:1 (17) Page(s): 51-59

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Title

DESIGN OF A NEW ANTI-LOCK BRAKING SYSTEM FOR MOTORCYCLES

Author(s)

Keywords

MOTORCYCLE

NEW ABS

PILOT MODEL

SLIP RATIO

Abstract

A new anti-lock braking system (ABS) for MOTORCYCLEs is proposed in this study. It functions by processing the speed of the MOTORCYCLE tire in contact with the ground relative to the speed of the MOTORCYCLE itself and by calculating the SLIP RATIO (l) of the tire slipping on the ground while braking, and reducing it to a minimum which leads to increased controllability of the MOTORCYCLE and reduction of the stopping distance, especially when the ground is slippery. The design of the NEW ABS and its PILOT MODEL comprises mechanical parts, hydraulics, and an electrical circuit. The PILOT MODEL providing the testing facility for the brake system functioning in a fixed place is in fact a simulation of the movement of a MOTORCYCLE on the ground. When the electric motor is turned on, and its flywheel reaches the desired speed, a controllable load is applied to the flywheel by the MOTORCYCLE tire which is a modelling of the weight of the MOTORCYCLE and the rider. Then, by turning the electric motor off, the throttle is released and the brake is activated. In this state, without the tire being locked, it will stop within a shorter time and distance than the non-ABS, because the new system keeps the tire in the threshold state of slipping relative to the ground, which is the maximum friction coefficient and the maximum brake force. The results show that the stoppage time for the NEW ABS is about 40% less than that is the non-ABS type.

Cites

FINITE ELEMENT ANALYSIS OF AUTOMOTIVE DISC BRAKE AND PAD IN FRICTIONAL MODEL CONTACT

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APA: Copy

SHAMSMOHAMADI, M., SOHEILI, M., NASIRI, S., RAJABIRAD, M.J., TORABI, M., & JAVAM, N.. (2011). DESIGN OF A NEW ANTI-LOCK BRAKING SYSTEM FOR MOTORCYCLES. INTERNATIONAL JOURNAL OF ADVANCED DESIGN AND MANUFACTURING TECHNOLOGY, 5(1 (17)), 51-59. SID. https://sid.ir/paper/580196/en

Vancouver: Copy

SHAMSMOHAMADI M., SOHEILI M., NASIRI S., RAJABIRAD M.J., TORABI M., JAVAM N.. DESIGN OF A NEW ANTI-LOCK BRAKING SYSTEM FOR MOTORCYCLES. INTERNATIONAL JOURNAL OF ADVANCED DESIGN AND MANUFACTURING TECHNOLOGY[Internet]. 2011;5(1 (17)):51-59. Available from: https://sid.ir/paper/580196/en

IEEE: Copy

M. SHAMSMOHAMADI, M. SOHEILI, S. NASIRI, M.J. RAJABIRAD, M. TORABI, and N. JAVAM, “DESIGN OF A NEW ANTI-LOCK BRAKING SYSTEM FOR MOTORCYCLES,” INTERNATIONAL JOURNAL OF ADVANCED DESIGN AND MANUFACTURING TECHNOLOGY, vol. 5, no. 1 (17), pp. 51–59, 2011, [Online]. Available: https://sid.ir/paper/580196/en

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