Design and Fabrication of Electromagnetic Braking System for Two Wheeler Vehicles
Abstract
Many costs are unlikely to be rejected in transportation engineering, such as delivery and accuracy over ambiguity. The electromagnetic braking system reduces or stops the rotation speed of the rotating disc or wheels using magnetic force. The benefits and limitations of caliper pressure and heat dissipation come with the concept of electromagnetic braking. Magnetic force is used to transport components of the brake device in the braking system. When a magnetic field is started within a revolving disc, the device introduces the signal that the opposite side produces a eddy current or rotation of the disc brake. Braking discs, solenoid, circuit board, and battery power are all components of the electromagnetic brake disc. The braking device is an ancient example of maximizing braking efficiency while minimizing losses. The contrast between electromagnetic braking machines with traditional exhaust brake devices is the focus of this paper. The Electromagnetic machine is now focusing on minimizing tool loss in order to increase tool safety. The main objective of the study is to examine the benefits of both arrangements while also highlighting their uncertainty.
Cite asVishwjeet V. Ambade, Saurabh Kawale, Pradeep Harinkhede, Nilesh Thakre, Saroj Patle, Manish Dolas, & Amit Barapatre. (2022). Design and Fabrication of Electromagnetic Braking System for Two Wheeler Vehicles. Research and Development in Machine Design, 5(1), 1–5. https://doi.org/10.5281/zenodo.6619478
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