MS in Mechanical, Materials & Aerospace Engineering

Course Work 

On joining the Institute every student is required to plan his/her course-work in consultation with a Faculty Advisor.

Credit Requirements 

  1. All students of the MS programme are normally required to complete the prescribed 34 credits within the first two semesters from the date of joining, by completing the coursework prescribed by the faculty advisor.

  2. In addition, the research scholars should complete PP/NP course on Communication Skills. 

  3. MS students will be allowed to take additional courses beyond the prescribed 34 credits, with the approval of APEC.

  4. MS students will be allowed to take only one UG course for credit requirements. 

Additional details on course work can be found in MS-R.4.1 in MS Rule Book 

Performance Requirements 

A MS student must fulfil the following performance requirements: 

A student MUST get at least CC grade in EVERY course (other than optional) registered as a credit course, including seminar.

Academic Probation to the students having lower grade than the minimum requirement for continuation of their studies may be given. For students who have scored grade lower than CC in at most one course in their first semester may be offered an academic probation, with appropriate conditions decided by APEC.

Syllabus for MS in MMAE

List of PG Courses from MMAE Department

S.No

Course Code

Name of Course

L-T-P-C

1ME 601Advanced Heat Transfer3-0-0-6
2ME 602Introduction to Turbulence and its Modelling3-0-0-6
3ME 603    Advanced Finite Element Methods3-0-0-6
4ME 604Multiphase Flow3-0-0-6
5ME 605Additive and Forming Manufacturing Processes3-0-0-6
6ME 606    Nonlinear Solid Mechanics for Finite Element Method3-0-0-6
7ME 607Advanced Solid Mechanics3-0-0-6
8ME 608Advanced Mechanisms and Dynamics of Mechanical Systems3-0-0-6
9ME 609    Advanced Fluid Mechanics and Heat Transfer3-0-0-6
10ME 610Compressible Flow and Gas Dynamics3-0-0-6
11ME 611Experimental Theory & Laboratory1-0-3-5
12ME 620    Design of Heat Exchangers3-0-0-6
13ME 621Introduction to Programming and Modeling Laboratory1-0-3-5
14ME 622Kinematics, Dynamics and Control of Mechanical System4-0-2-10
15ME 623Tribology3-0-0-6
16ME 624CNC & Part Programming3-0-0-6
17ME 625Linear Viscoelasticity3-0-0-6
18ME 626Experimental Methods in Thermal and Fluids Engineering3-0-0-6
19ME 627Mechanics of Composite Materials3-0-0-6
20ME 628    Mechanical Vibrations3-0-0-6
21ME 629Fundamentals of Acoustics3-0-0-6
22ME 630    Turbomachinery Aerodynamics3-0-0-6
23ME 631    Metal Forming and Plasticity3-0-0-6
24ME 632Mechanical Engineering Experimental Laboratory1-0-3-5
25ME 633Sustainable Energy for Transportation3-0-0-6
26ME 634Practicum0-0-3-3
27ME 635Introduction to Statics and Dynamics3-0-0-6
28ME 636Smart manufacturing and material selection3-0-0-6
29ME 637Design of Mechatronic Systems3-0-0-6
30ME 638    Foundations of Dynamics3-0-0-3
31ME 639Vehicle Dynamics3-0-0-3
32ME 640Battery Chemistry and Thermal Management3-0-0-3
33ME 641Alternative Energy Sources for Transportation3-0-0-3
34ME 642Boundary-layer and Aerodynamics3-0-0-3
35ME 654Finite Element Analysis3-0-0-3
36ME 644Additive Manufacturing and Material selection3-0-0-3
37ME 645Modeling of Metal Plasticity: Discrete and Continuum approaches3-0-0-6
38ME 646Fracture Mechanics3-0-0-6
39ME 647Advanced CAM2-0-2-6
40ME 648Design and Manufacturing of composites3-0-0-6
41ME 649Energy for Transportation3-0-0-3
42ME 650Functional Materials Manufacturing for Energy and Biomedical Applications1-0-0-2
43ME 903Engineering Mathematics for Advanced Studies3-0-0-6
44ME 651Engineering Mathematics for Advanced Studies4-0-0-8
45ME 652Fatigue and Fracture Mechanics3-0-0-6
46ME 653Combustion and Fire Dynamics3-0-0-6
47ME 705Convective Heat Transfer3-0-0-6
48ME 706Satellite Attitude Dynamics and Control3-0-0-6
49ME 802Applied Elasticity2-1-0-6
50ME 910Seminar0-0-4-4
51ME 447Automobile Engineering Fundamentals3-0-0-6
52ME 904Viscous flows3-0-0-6
53ME 905Nonlinear Oscillation3-0-0-6
54ME 655Fire Safety Engineering2-0-2-6