Extended Hybrid Electric Motorcycle Motor Mount Design, Analysis And Installation

Sylvester, Sulip (2015) Extended Hybrid Electric Motorcycle Motor Mount Design, Analysis And Installation. Project Report. UTeM, Melaka, Malaysia. (Submitted)

Text (24 Pages) Extended Hybrid Electric Motorcycle Motor Mount Design, Analysis And Installation.pdf - Submitted Version Download (343kB)

Abstract

Motorcycles are one of the most affordable forms of motorised transport in many parts of the world. For most of the world's population, they are also the most common type of motor vehicle. The swing arm is the main component of the rear suspension of a modern motorcycle. It supports the rear axle while pivoting vertically to allow the suspension to absorb bumps on the road. Motorcycle manufacturers are continually striving to improve their products and make components (e.g. the swingarm) lighter, stronger and cheaper. This research report details the development of an innovative for swing arm design. Hybrid electric motorcycle motor mount design, analysis and installation is the main focus of this project. This project was carried out to design, perform strength analysis, fabricate and installation the bracket for electric motorcycle hub on a motorcycle swingarm. The information that has been used is based on the previous study about the frame. The approximation measurement of the model of hybrid electric motorcycle chassis had been done. In the meantime, the software development is improving in this few decades. Most of the new software makes the analysis and designing easier to understand. This project aim to design new swingarm for hybrid electric motorcycle. CATIA software is used for designing this swingarm. The motorcycle swingarm is a critical component in the rear part of the motorcycle. The literature shows that swingarms need to be strong enough to handle various loads experienced in the field, stiff enough to increase motorcycle response and stability, and light enough to improve motorcycle performance and reduce the rear unsprung mass.

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