Vision

To be a globally renowned leader in education, research and extension activities in emerging areas of mechanical engineering and allied fields.

Mission

Training the leaders, innovators and outstanding career professionals of tomorrow and conducting fundamental research to address major technological roadblocks.

M.Tech. – Machine Design

• Demonstrate a breadth of knowledge of Design of Machine elements.
• Demonstrate a depth of knowledge in a chosen focus area, inside or outside of Machine and Mechanical Systems.
• Demonstrate knowledge of contemporary issues in their chosen focused area.
• Demonstrate the ability to independently complete a technical project.

M.Tech. – Robotics and Mechatronics

• Demonstrate a breadth of knowledge of Mechatronics.
• Demonstrate a depth of knowledge in a chosen focus area, inside or outside of Mechatronics.
• Demonstrate knowledge of contemporary issues in their chosen focused area
• Demonstrate the ability to independently complete a technical project.

M.Tech. – Thermal Engineering

• Demonstrate a breadth of knowledge of Thermal Engineering.
• Demonstrate a depth of knowledge in a chosen focus area, inside or outside of Thermal Engineering.
• Demonstrate knowledge of contemporary issues in their chosen focused area
• Demonstrate the ability to independently complete a technical project.

M.Tech. – Machine Design

1. Advanced knowledge of a broad range of modelling methodologies, and underlying principles of mechanics, commonly used in the development and analysis of mechanical machines and systems.
2. Knowledge of fundamental design issues relevant to machine or mechanical component, and an understanding of how to formulate and analyse design solutions in various engineering contexts.
3. Working knowledge of a range of modern mathematical methods and tools used in the development and analysis of machines and mechanical systems.
4. In-depth knowledge of one or more of the following (depending of selection of option modules and project area): specific engineering systems, design methods, modelling techniques, mathematical and/or numerical techniques.
5. Knowledge of basic research and development principles and practices relevant to mainstream engineering industry.
6. Knowledge of key professional, safety and ethical issues arising in modern engineering industry.
7. Knowledge of time-management and work planning issues related to the organisation, implementation and successful completion, including reporting, of an individual, Masters level, engineering based project.

M.Tech. – Robotics and Mechatronics

1. Advanced knowledge of a broad range of modelling methodologies, and underlying mechanical science, commonly used in the development and analysis of mechatronic engineering systems.
2. Knowledge of fundamental design issues relevant to mechatronic engineering, and an understanding of how to formulate and analyse design solutions in various engineering contexts.
3. Working knowledge of a range of modern mathematical methods and tools used in the development and analysis of mechatronic engineering systems.
4. In-depth knowledge of one or more of the following (depending of selection of option modules and project area): specific engineering systems, design methods, modelling techniques, mathematical and/or numerical techniques.
5. Knowledge of basic research and development principles and practices relevant to mainstream engineering industry.
6. Knowledge of key professional, safety and ethical issues arising in modern engineering industry.
7. Knowledge of time-management and work planning issues related to the organisation, implementation and successful completion, including reporting, of an individual, Masters level, engineering based project.

M.Tech. – Thermal Engineering

1. Advanced knowledge of a broad range of modelling methodologies, and underlying mechanical science, commonly used in the development and analysis of Thermal engineering systems.
2. Knowledge of fundamental design issues relevant to Thermal engineering, and an understanding of how to formulate and analyse design solutions in various engineering contexts.
3. Working knowledge of a range of modern mathematical methods and tools used in the development and analysis of Thermal engineering systems.
4. In-depth knowledge of one or more of the following (depending of selection of option modules and project area): specific engineering systems, design methods, modelling techniques, mathematical and/or numerical techniques.
5. Knowledge of basic research and development principles and practices relevant to mainstream engineering industry.
6. Knowledge of key professional, safety and ethical issues arising in modern engineering industry.
7. Knowledge of time-management and work planning issues related to the organisation, implementation and successful completion, including reporting, of an individual, Masters level, engineering based project.

M.Tech. – Mechanical Engineering

M.Tech in Thermal Engineering

• 2018-2019 Admitted Batch
• 2017-2018 Admitted Batch
• 2016-2017 Admited Batch
• 2015-2016 Admited Batch
• 2014-2015 Admited Batch
• 2013-2014 Admited Batch
• 2012-2013 Admited Batch

M.Tech in Robotics and Mechatronics

• 2018-2019 Admitted Batch
• 2017-2018 Admitted Batch
• 2016-2017 Admited Batch
• 2015-2016 Admited Batch
• 2014-2015 Admited Batch
• 2013-2014 Admited Batch

M.Tech in Machine Design

• 2018-2019 Admitted Batch