myIIT
Highlights of the Program:
- India's smart and green campus, providing a sustainable and innovative learning environment.
- Access to world-class teaching and research facilities, ensuring a high-quality education.
- Strong industry connections, with top recruiters like Cummins, L&T, Volvo, offering promising career opportunities.
- Extensive internship opportunities in industries and R&D labs, providing practical experience and industry exposure.
Prescribed Credit Structure:
IC: Institute core = 67 credits,
PC: Program core = 23 credits,
PE: Program Electives = 6 + 5 + 4*6 = 35 credits
- 1st semester:
- 3 core-courses (6 credits each) = 18 credits prescribed program core
- Minimum 6 credits from “Engineering and Applied Mathematics” basket
- Minimum 5 credits from “Programming and Scientific Computing” basket
- Research Practicum (3 credits)
- 2nd semester:
- 4 elective courses (6 credits each),
- 1 core lab (5 credits)
- 3rd semester: MTech Technical Project work - Phase I (32 credits)
- 4th semester: MTech Technical Project work - Phase II (32 credits)
MTech (Mechanical Engineering): Possible Course Outline/Proposal: 32 + 29 + 32 + 32 = 125 Credits
Semester - I: (Four Core courses + One Core laboratory + Seminar): 32 Credits
Course code - Course Name | L-T-P-C |
| Advanced Solid Mechanics(ME 607)[3-0-0-6] OR Advanced Mechanisms and Dynamics of Mechanical Systems(ME 608)[3-0-0-6] | 3-0-0-6 |
Advanced Fluid Mechanics and Heat Transfer(ME 609)[3-0-0-6] | 3-0-0-6 |
| Additive and Forming Manufacturing Processes(ME 605)[3-0-0-6] | 3-0-0-6 |
| A course from “Engineering and Applied Mathematics” basket | min. 6 credits |
A course from “Programming and Scientific Computing” basket | min. 5 credits |
| Research Practicum (Seminar) | 0-0-3-3 |
* Allocate research practicum seminar topics: seminar coordination by the FacAd of the batch at the beginning of the 1st semester
* Allocate MTech Technical Project Supervisor at the end of 1st semester
Semester - II: (One Core laboratory + 4 Electives): 29 Credits
| Course Code - Course Name | L-T-P-C |
Experimental Theory & Laboratory | 1-0-3-5 |
| Elective I | 3-0-0-6 |
| Elective II | 3-0-0-6 |
| Elective III | 3-0-0-6 |
| Elective IV | 3-0-0-6 |
* Student may credit few elective courses in next semesters (min. credits to be completed in Sem-II are 17 including core lab)
Semester – III: 32 Credits | ||
| Course Name | L-T-P-C | Course Category |
| M.Tech. Project - I | 0-8-16-32 | IC |
Semester – IV: 32 Credits | ||
| Course Name | L-T-P-C | Course Category |
| M.Tech. Project - II | 0-8-16-32 | IC |
Engineering and Applied Mathematics basket of courses: (minimum 6 credits)
- Engineering Mathematics for Advanced Studies (MA 905)[4-0-0-8]
- Mathematics for Data Science (CS 427) [3-0-0-6]
- Numerical Linear Algebra (MA 401) [3-0-0-6]
- Introduction to Numerical Methods (MA 406) [3-1-0-4]
Programming and Scientific Computing basket of courses: (minimum 5 credits)
- Introduction to Programming and Modeling Laboratory (ME 621) [1-0-3-5]
- Topics in Data structures and Algorithms (CS 626) [2-0-2-6]
- Programming Parallel Machines (CS 434) [3-0-0-6]
- Software Development for Scientific Computing (CS 601) [3-0-0-6]
List of PG electives
| Course Code | Course Code | LTPC | Level |
| ME 601 | Advanced Heat Transfer | 3-0-0-6 | PG |
| ME 602 | Introduction to Turbulence and its Modelling | 3-0-0-6 | PG |
| ME 603 | Advanced Finite Element Methods | 3-0-0-6 | PG |
| ME 604 | Multiphase Flow | 3-0-0-6 | PG |
| ME 605 | Additive and Forming Manufacturing Processes | 3-0-0-6 | PG |
| ME 606 | Nonlinear Solid Mechanics for Finite Element Method | 3-0-0-6 | PG |
| ME 607 | Advanced Solid Mechanics | 3-0-0-6 | PG |
| ME 608 | Advanced Mechanisms and Dynamics of Mechanical Systems | 3-0-0-6 | PG |
| ME 609 | Advanced Fluid Mechanics and Heat Transfer | 3-0-0-6 | PG |
| ME 610 | Compressible Flow and Gas Dynamics | 3-0-0-6 | PG |
| ME 611 | Experimental Theory & Laboratory | 1-0-3-5 | PG |
| ME 620 | Design of Heat Exchangers | 3-0-0-6 | PG |
| ME 621 | Introduction to Programming and Modeling Laboratory | 1-0-3-5 | PG |
| ME 622 | Kinematics, Dynamics and Control of Mechanical System | 4-0-2-10 | PG |
| ME 623 | Tribology | 3-0-0-6 | PG |
| ME 624 | CNC & Part Programming | 3-0-0-6 | PG |
| ME 625 | Linear Viscoelasticity | 3-0-0-6 | PG |
| ME 626 | Experimental Methods in Thermal and Fluids Engineering | 3-0-0-6 | PG |
| ME 627 | Mechanics of Composite Materials | 3-0-0-6 | PG |
| ME 628 | Mechanical Vibrations | 3-0-0-6 | PG |
| ME 629 | Fundamentals of Acoustics | 3-0-0-6 | PG |
| ME 630 | Turbomachinery Aerodynamics | 3-0-0-6 | PG |
| ME 631 | Metal Forming and Plasticity | 3-0-0-6 | PG |
| ME 632 | Mechanical Engineering Experimental Laboratory | 1-0-3-5 | PG |
| ME 633 | Sustainable Energy for Transportation | 3-0-0-6 | PG |
| ME 635 | Introduction to Statics and Dynamics | 3-0-0-6 | PG |
| ME 636 | Smart manufacturing and material selection | 3-0-0-6 | PG |
| ME 637 | Design of Mechatronic Systems | 3-0-0-6 | PG |
| ME 643 | Finite Element Analysis | 3-0-0-6 | PG |
| ME 645 | Modeling of Metal Plasticity: Discrete and Continuum approaches | 3-0-0-6 | PG |
| ME 646 | Fracture Mechanics | 3-0-0-6 | PG |
| ME 647 | Advanced CAM | 2-0-2-6 | PG |
| ME 648 | Design and Manufacturing of composites | 3-0-0-6 | PG |
| ME 651 | Engineering Mathematics for Advanced Studies | 4-0-0-8 | PG |
| ME 652 | Fatigue and Fracture Mechanics | 3-0-0-6 | PG |
| ME 653 | Combustion and Fire Dynamics | 3-0-0-6 | PG |
| ME 655 | Fire Safety Engineering | 2-0-2-6 | PG |
| ME 705 | Convective Heat Transfer | 3-0-0-6 | PG |
| ME 706 | Satellite Attitude Dynamics and Control | 3-0-0-6 | PG |
| ME 802 | Applied Elasticity | 2-1-0-6 | PG |
| ME 903 | Engineering Mathematics for Advanced Studies | 3-0-0-6 | PG |
| ME 904 | Viscous flows | 3-0-0-6 | PG |
| ME 905 | Nonlinear Oscillation | 3-0-0-6 | PG |
| ME 910 | Seminar | 0-0-4-4 | PG |
| Fundamentals of Tribology | 3-0-0-6 | PG |
