Master of Technology

2-year MTech program

This program brings together the broad disciplines of Solid Mechanics, Fluid Mechanics & Biomedical Engineering into a single fold with specialization in respective areas. Candidates from a wide range of Engineering disciplines (see table) are eligible to apply.

The first semester is common for all students. Based on the performance in the first semester and their individual preference, students will be allotted 4 HTTA fellowships in each of the three specialization groups. In the second year, the students will work on a research project in the area of specialization, which they have chosen. Curriculum Details


M.Tech curriculum (for students admitted from 2017 academic year onwards)

M.Tech in Computational and Experimental Mechanics

M. Tech in Biomedical Engineering


M.Tech curriculum (for students admitted in 2015 and 2016)

Course Number Course Name Lectures Tutorials Practicals Credits
AM 5600 Computational Techniques in Applied Mechanics 3 0 0 3
AM 5610 Measurements in Mechanics 3 0 0 3
AM 5390/EE 5350 Advanced Structural Mechanics / Analog and Digital Circuits. 3 0 0 3
AM 5530 Advanced Fluid Mechanics / Introduction to DSP 3/4 0/1 0/0 3/4
AM 5010 Biomechanics 3 0 0 3
AM 5800 Instrumentation Laboratory 0 0 3 1
AM 5810 Computational Laboratory 0 0 3 1
Total 15/16 0/1 6/6 19/21
Course Number Course Name Lectures Tutorials Practicals Credits
# Specialisation Core I 3 0 0 3
# Specialisation Core II 3 0 0 3
# Specialisation Core III 3 0 0 3
# Elective I 3 0 0 3
# Elective II 3 0 0 3
# Elective III 3 0 0 3
# Specialisation Laboratory 0 0 3 1
# 0 0 3 1
Total 18 0 3 20
Course Number Course Name Lectures Tutorials Practicals Credits
# Elective IV 3 0 0 3
AM 5480 Seminar 0 0 3 1
AM 5420* Project - 1 3 0 24 8
Total 18 0 3 20
Course Number Course Name Lectures Tutorials Practicals Credits
AM 5420 Project - 2 0 0 36 12
Total 20

Specialisation core / Laboratory

Course Number Course Name Lectures Tutorials Practicals Credits
AM5240 Experimental Stress Analysis 3 0 0 3
AM5160 Discrete Element Methods in Engineering Analysis 3 0 0 3
AM5140 Theory of Plates and Shells 3 0 0 3
AM5110 Experimental Stress Analysis Laboratory 0 0 3 1
Course Number Course Name Lectures Tutorials Practicals Credits
AM 5570 Introduction to Turbulence 3 0 0 3
AM 5540 Hydrodynamics 3 0 0 3
AM 5630 Introduction to CFD 3 0 0 3
AM 5820 Wind Tunnel and Numerical Experiments 0 0 3 1
Course Number Course Name Lectures Tutorials Practicals Credits
AM5130 Quantitative Physiology 3 0 0 3
AM5160 Biomedical Imaging Systems 3 0 0 3
AM5140 Biomedical Instrumentation 3 0 0 3
AM5110 Biomechanics Laboratory 0 0 3 2

Electives

Course Number Course Name Credits
AM5000 Ergonomics (Presently AM600) 3
AM5030 Medical Physics 3
AM5070 Medical Systems and Control 3
AM5100 Bio medical Laser Instrumentation 3
AM5110 Bio Fluid Mechanics 3
AM5110 Bio Fluid Mechanics 3
AM5120 Bio Materials 3
AM5150 Bio dynamics 3
AM5170 Orthopaedic Mechanics 3
AM5210 Approx. Methods in Engineering Analysis 3
AM5220 Theory of Visco Elasticity 3
AM5250 Theory of Plasticity 3
AM5260 3-Dimensional Problems in Theory of Elasticity 3
AM5280 Advanced Experimental Techniques 3
AM5290 Dynamics of Structures 3
AM5300 Engineering Plasticity 3
AM5300 Stability of Structures 3
AM5320 Non-Linear Stress Analysis 3
AM5330 Wave Pro 3
AM5340 Stochastic Processes in Structural Mechanics 3
AM5350 Analysis of Pressure Vessels 3
AM5360 Composite Structures 3
AM5380 Approx. Methods in Structural Mechanics 3
AM5410 Theory of Plates 3
AM5430 Boundary Element Methods 3
AM5440 Engineering Fracture Mechanics 3
AM5500 Theory of Shells 3
AM5640 Turbulence Modeling 3
AM6550 Advanced Gas Dynamics 3
AM6560 Turbulent Boundary Layers 3
AM6570 Flow Induced Vibrations 3
AM 6580 Wind Engineering 3
AM6590 Turbulent Shear Flows 3
AM5410 Thermal & Compressible Boundary Layers 3
ID6010 Constitutive Modeling in Continuum Mechanics 3
Anyother M.Tech Level Course with the approval of HOD