![]() The designed go-kart is able to withstand against any adverse condition on road as each component is designed specifically considering all types of failures and safety issues. Also, while designing every individual part DFMEA and DVP has been done which improved our quality standard, factor of safety and other safety parameters also. ![]() Where ever possible finite element analysis (FEA) was done on the regularly loaded parts & modifications were done accordingly to avoid any type of design failure. ![]() All the parameters like Reliability, safety, Cost, Performance, aesthetics, ergonomics, Standard dimensions & material were also taken in consideration on the same time. The design objectives, set out to be achieved were four simple goals applied to every component of the vehicle: durable, Safety & ergonomics, lightweight and high performance. The design process of the vehicle is iterative and is based on various engineering and reverse engineering processes depending upon the availability, cost and other such factors. We approached our design by considering all possible alternatives for a system and modelling them in SOLIDWORKS. This paper concentrates on explaining the engineering behind designing of a safe, rigid and torsional free frame, well-mounted power train along with braking and steering system. Go-Kart is a racing vehicle having very low ground clearance and can be work on only flat racing circuits. Power train is specially designed to get maximum speed and torque for high performance which can be given by the any other geared vehicle. We approached our design by considering all possible alternatives for a system and modelling them in SOLIDWORKS & CREO 3.0.
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