Mechanical Engineering Unleashed: Innovation in Motion

At the Department of Mechanical Engineering, learning goes beyond textbooks and lectures. It is a dynamic ecosystem where advanced technologies, interdisciplinary collaboration, and real-world challenges intersect, empowering students to innovate, experiment, and lead. Here, engineers are shaped to be versatile, future-ready, and capable of driving transformative solutions across industries and society.

Our Unique Edge

Clusters of Advanced Disciplines

At ME @ MLRITM, innovation thrives at the intersection of multiple engineering frontiers. Students are immersed in a synergistic environment where knowledge, technology, and creativity come together to tackle real-world challenges.  
Explore a network of emerging fields — Robotics & Automation, Mechatronics, Additive Manufacturing, Electric Vehicle Technology, AI in Design, and Smart Materials — where each domain intersects to foster cross-disciplinary innovation.

Centres of Excellence

Our Centres of Excellence are incubators for the engineers of tomorrow. Here, students push the boundaries of technology, tinker with advanced tools, and bring bold ideas to life. Every lab is a launchpad for creativity, cross-disciplinary exploration, and real-world impact, turning learners into innovators ready to redefine industries and shape the future of engineering.

Hands-on Experience in State-of-the-Art Labs

Siemens Certification

Gain practical skills in industrial automation, mechatronics, and smart manufacturing. Operate PLCs, industrial robots, and CNC systems, and prepare for Siemens Mechatronic Systems Certification, equipping students for careers in automation and Industry 4.0.

Autodesk Design Academy

Master 3D CAD modeling, product visualization, and design optimization using tools like AutoCAD, Fusion 360, and Inventor. Students work on real product designs and earn Autodesk Certified Professional credentials, readying them for design engineering and innovation roles.

ANSYS & SolidWorks

Conduct simulation-driven design, structural analysis, thermal and fluid flow studies, and motion analysis. Hands-on projects help students test and optimize designs, building skills for CAE, R&D, and mechanical design careers.

Additive Manufacturing Lab

Explore 3D printing technologies, material selection, and digital fabrication methods. Students design, prototype, and fabricate parts, gaining experience in rapid prototyping and product innovation.

Electric Vehicle Technology

Work on battery management, electric motors, power electronics, and vehicle dynamics. Students model, simulate, and test EV systems, preparing for careers in electric mobility, energy-efficient transport, and sustainable engineering.

Simulation & Industry-Integrated Learning

In the Mechanical Engineering ecosystem of MLRITM, students dive into a world of digital simulation and real-time innovation, mastering tools like MATLAB/Simulink, Robo Analyzer, Fusion 360, ANSYS Workbench, and PLC systems to simulate, optimize, and implement engineering solutions.  
Through industry-integrated learning and globally recognized certifications from Siemens, Autodesk, Ansys, SolidWorks, and Altair, learners gain cutting-edge technical expertise and global employability, bridging the gap between academic knowledge and industrial excellence.

Sustainable & Future-Ready Engineering

Rooted in the principles of the Sustainable Development Goals (SDGs), the program empowers students to engineer responsibly and innovate sustainably. They gain hands-on experience in electric mobility, green manufacturing, and renewable energy systems, developing solutions that minimize environmental impact and maximize efficiency.  
With a focus on clean energy, resource optimization, and climate-conscious design, students are prepared to lead the transformation toward a cleaner, smarter, and more sustainable future.

Why Choose ME @ MLRITM?

Step into a department where machines think, materials evolve, and ideas take shape. It’s more than mechanical engineering — it’s mechanical mastery in action. Here, innovation meets hands-on learning, technology meets real-world application, and students emerge as globally competent engineers ready to shape the future.