Parametric Modelling and Design - Metro Brake Assembly
Parametric metro brake assembly developed through reverse engineering and production-focused detailing.
This project focuses on the reverse engineering of a metro electromagnetic brake assembly, developed using SolidWorks with a fully parametric approach and accurate assembly structure. All components were designed with appropriate tolerances, material considerations, and detailed manufacturing drawings. The model ensures real-world applicability for metro and railway systems.
The brake assembly was rebuilt through a reverse engineering workflow using SolidWorks with a fully parametric structure. The goal was to create an accurate assembly model that captures the real component relationships, tolerances, and production intent of the system.
All components were designed with appropriate tolerances and material considerations.
The assembly structure maintains correct alignment and functional clearances.
Detailed drawings support manufacturing and assembly communication.
Industrial Readiness
The completed model is intended for real-world metro and railway use, where dimensional accuracy alone is not enough. The project also addresses manufacturability, assembly feasibility, and documentation quality so it remains relevant for industrial production.
Suitable for CNC machining and fabrication-oriented review.
Built with industrial-grade modeling standards and production feasibility in mind.
Ensures real-world applicability for metro and railway systems.
Project Visuals
Supporting images for this project
Finished assembly render showing the complete brake component stack.
Exploded drawing sheet with parts identification and assembly arrangement.
Multi-view SolidWorks workspace used to confirm alignment and assembly structure.
