Abstract:
Connecting rod, a vital component of an automotive engine, undergoes stress and deformation producing useful rotary motion. The following work was done aiming to fulfil a research gap in the premises of connecting rod. Even though quite a few numbers of works have been done to analyse Ti6Al4V as connecting rod material, none of them displayed a separate design based
on its buckling load. However, calculating the design parameters and designing accordingly for
different materials offers a chance of improvement. In this study, we designed a separate model
for Ti6Al4V while maintaining same factor of safety against buckling which resulted in 60%
weight reduction than the 42CrMO4 model. The design was verified using static and fatigue
analysis in Ansys. The mass was even reduced further by response surface optimization
technique weighing 0.196 kg only instead of original weight of 0.839 kg. This lightweight
model made the design more compact and the reduced materials decreased engine load which
improved the efficiency of the engine. Finally, how the neck radius affects the stress developed
on the connecting rod was analysed and total deformation revealed a significant pattern with
the increasing fillet radius and consequently the stress reduced drastically until a optimal point
was reached. Finding this optimal fillet radius will help the future researchers to design more
compact connecting rod with minimal stress and deformation
Description:
Supervised by
Prof. Dr. Md. Zahid Hossain,
Department of Production and Mechanical Engineering(MPE),
Islamic University of Technology (IUT)
Board Bazar, Gazipur-1704, Bangladesh