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Study of noise radiating from an internal combustion engine is of great interest and challenge to automobile engineers. Design of low-noise engines is becoming increasingly important because of progressively stringent regulatory requirements. Further, customers are demanding products that have pleasing sound quality. As any improvement in this area will have significant impact on image of the product, addressing these concerns will prove highly beneficial. Most of the critical engine performance parameters - power, fuel economy, and emissions - impact engine noise and sound quality. Therefore, to avoid intractable engine noise and sound quality problems later, it is very imperative to deal with them upfront in the development process.

Two wheelers are very popular as means of transportation in ASIA. It is also used as load carrier in some places. Chassis frame is a very critical part of a two wheeler taking most of the loads coming from the roads. During the design and development stage, structural integrity of the frame needs to be established. Bump test is one of the critical life tests performed on the vehicle for evaluating the fatigue life of the frame. Normally, three to four iterations take place before frame passes this bump test. This is a time taking test process (1week per iteration) and does not guarantee the end result. In the new approach, the bump test simulation is made using ADAMS software. The ADAMS model is validated by using the axle accelerations measured in the physical bump test. Subsequently, the loads obtained from ADAMS model are used in FEM software and the stresses are predicted. The stress pattern helped in identifying the critical areas.

Fatigue life prediction is the most promising technique for drastic reduction of durability evaluation time, which is a critical element in the product development cycle. By using this technique, it is possible to reduce development time and cost, identify failure modes early in the development cycle, and design the component for optimum life. This paper discusses the optimisation of an important two-wheeler component namely, the center stand, using fatigue life prediction techniques. Also, it aims at establishing correlation among various customer usage patterns, accelerated endurance tests, and fatigue life prediction results using both experimental data and finite element (FE) models.