SAEINDIA Club

Student of Automotive Engineers INDIA

SAEINDIA, a non-profit engineering society registered in India, operates as an affiliate of SAE International, with a mission to advance the mobility sector in India. MMCOE SAEINDIA Collegiate Club an interdisciplinary club which was formed in Mechanical Engineering Department of Marathwada Mitra Mandal’s College of Engineering in 2013 to bring budding engineers forward to get hands-on experience and develop practical aspects of engineering among the students. This initiative has encouraged the students to get over the Industry-Academia gap and bring glory to the college in different National level student-design competition like BAJA SAEINDIA & SUPRA SAEINDIA.

BAJA SAEINDIA

BAJA SAEINDIA is a national-level engineering competition in which students design, fabricate, and validate a single-seater, four-wheeled off-road vehicle. The competition consists of static events such as design, cost, and sales presentations, and dynamic events that test the vehicle’s acceleration, sled pull, suspension-traction, maneuverability, and endurance. Working in a team, students apply their knowledge to build, test, promote, and compete with their vehicle adhering to the competition’s rules.

SUPRA SAEINDIA

SUPRA SAEINDIA is a national engineering competition where student teams across India compete to design and build a formula-style car. The competition consists of multiple testing rounds such as technical inspections (vehicle scrutiny, tilt, noise, and brake tests), static events (cost, marketing, and design presentations), dynamic trials (acceleration, skidpad, and autocross), followed by the final endurance race.

Aim

Provide budding engineers with the opportunity to demonstrate their talents, while offering a platform to explore, gain expertise, and apply knowledge in the areas of R&D and manufacturing related to automobiles.

Objectives

  • Develop detailed design for SAEINDIA competitions that meets required standards, including durability, safety features, and optimal performance.
  • Conduct simulations and perform key calculations (such as stress analysis, suspension dynamics, and power-to-weight ratio, etc.) to refine the vehicle's speed, maneuverability, stability, and fuel efficiency.
  • Identify and choose appropriate materials for key components, durable enough to withstand challenging terrains, collisions, and environmental conditions.
  • Implement advanced manufacturing processes and manage the production of automobile components, ensuring they align with the design requirements.
  • Conduct field testing of manufactured vehicles across terrains to assess its handling, stability, durability, and safety.
  • Prepare comprehensive reports and presentations for static events such as design, sales, cost, sustainability, etc.
  • To provide students with the opportunity to discover potential careers through campus recruitment at events.

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