car suspenssion assembly

Detailed Version (Professional): I designed and developed a car suspension assembly using PTC Creo Parametric, focusing on the structural components and functional integration of the suspension system. The model includes key parts such as the shock absorber housing, piston rod, helical compression spring, rubber bushings, holders, nuts, and mounting components, all assembled to represent a realistic automotive suspension mechanism. The design was created as a multi-part assembly, where each component was individually modeled with proper dimensions and then assembled using appropriate assembly constraints and alignments to replicate real mechanical connections. Special attention was given to the spring geometry and shock absorber structure, which play a critical role in absorbing road shocks and maintaining vehicle stability. The suspension system was designed to simulate how forces from uneven road surfaces are absorbed and damped by the spring and damper mechanism. The helical spring provides elastic energy storage and supports the vehicle load, while the shock absorber controls oscillations and improves ride comfort. Additionally, the design process involved component organization within the assembly structure, part hierarchy management, and visualization of the complete suspension mechanism to ensure proper alignment and functional interaction between components. This project demonstrates skills in mechanical assembly design, parametric modeling, component integration, and automotive system understanding using CAD tools.