M.Tech. in Mechanical Engineering offers three streams
·
Machine
Design:
·
Mechanical Design stream offers courses related to the mechanical
aspects of design and their application. All the Students
take six core (theory) courses and one laboratory in the first semester -
computational methods in engineering, theory of mechanisms, theory of
vibrations, principles of product design, design with advanced materials and
advanced mechanics of solids.
·
Additional core subjects such as failure analysis, finite element
analysis and a laboratory course on CAE are offered in the second semester. The
students are offered a basket of electives such as design synthesis, design of
transmission elements, gear design, CAD/CAM for product design, mechatronics,
product reliability, design of transmission systems, fracture mechanics,
tribo-design, tribo-instrumentation, nonlinear solid mechanics, optimization
methods, rotor dynamics, random vibration, acoustics and noise control,
vehicular vibration, chaotic vibration, advanced theory of vibration, modal
analysis of mechanical systems, design for manufacture and assembly, theory of
mixtures, mechanics of human movement.
·
The concepts learned through course work are useful for the
project work done in the third and final semesters. The project work can be
taken up in the following broad areas of expertise: Finite Element Analysis;
CAE; Vibration; Acoustics and Noise Control; Fluid-structure interactions;
Constitutive Material Modeling; Fatigue and Fracture; Machine Elements; Mechanisms;
Kinematics; Non-Destructive Evaluation & Condition Monitoring; Structural
Health and Condition Monitoring; Tribology; Fretting; Rotor Dynamics; Product
Design; Bio-Mechanics, Human Body Kinematics, Prosthetics; Design Optimization
and Reliability Engineering as well as in new and Emerging areas of mechanical
engineering relating to design.
·
Thermal
Engg.,
·
The stream of specialization in 'Thermal Engineering' offers
courses related to theory and applications of thermal engineering. Core and
Elective courses are offered by the Thermal Engineering faculty from the six
laboratories comprising of (a) Thermodynamics and Combustion Engineering
laboratory (b) Heat Transfer and Thermal Power laboratory (c)
Hydroturbomachines laboratory (d) Internal Combustion Engines and Gas Turbines
laboratory (e) Refrigeration and Air conditioning laboratory (f) Thermal
Turbomachines laboratory. All students have to take 9 stream courses in the
first two semesters. The courses are:
·
Semester I - Advanced Heat and Mass Transfer, I.C.
Engines Combustion and Pollution, Refrigeration and Cryogenics, Incompressible
Fluid Flow, Principles of Turbomachinery, Applied Thermodynamics.
·
Semester II - Numerical Methods in Thermal Engineering,
Measurements in Thermal Engineering, Advanced Energy Conversion.
·
They also have opportunity to do 4 elective courses from the
department (out of a total of 66 possible electives) and 1 free elective which
is left to the student's choice. The students will do a two semester project in
the second year of their M.Tech.
·
Core courses are designed to provide the students the required
base for undertaking specialized electives and the project. The student will
pursue a project of his/her choice in any area in which the thermal engineering
faculty are engaged
·
Production
Industrial Engg
·
The courses offered in the
first semester are computational methods in engineering, microprocessors in
automation, robotics and robot applications, metrology and computer aided
inspection, computer-aided design in manufacturing and computer numerical
control. The core courses offered after the first semester in this stream are
advanced materials and processing, sensors for intelligent manufacturing &
condition monitoring, mechatronics and oil hydraulics & pneumatic systems.
·
A good number of electives permit one to choose his/her area of
interest within the broad spectrum of courses related to advanced manufacturing
engineering, computer integrated manufacturing and precision engineering.
·
The list of electives include the courses such as production
system design and control, handling system design, tooling for automated
manufacturing & assembly, and management of finance, marketing &
personnel, with a special emphasis on impact of computers in advanced manufacturing.
Further, a wide variety of electives for in-depth study in specific areas of
CIM such as artificial intelligence in manufacturing, flexible manufacturing
systems, machine vision & its applications are included. This also includes
courses to give a clear understanding of the organizational aspects and total
quality management of CIM environment. A number of electives are offered to
cover precision engineering elements and instruments, manufacturing methods in
precision engineering, precision drives & controls, applied optics,
instrumentation and controls, and other important aspects of precision
engineering which has assumed a great significance in the recent past for
realizing host of products ranging from IT to Aerospace.
·
The project work can be taken in the areas such as computer
applications in design and manufacturing, materials, treatment and
manufacturing processes, process equipments and tools, process control and
optimization, inspection, testing and quality assurance, manufacturing
automation - sensors, handling devices etc. their selection, integration and
control, simulation and management aspects. Project work can also be undertaken
in the broad areas of instrumentation, robotics, precision manufacture,
metrology, microprocessor system based development. CAD, adaptive and digital
control system, active noise control, active suspension, embedded controllers
for automotive application, sensor technology, micro actuators, dynamic
balancing, magnetic suspension, gyroscopic systems, hydraulic and pneumatic
systems, simulation and dynamic analysis, sintered bearings, mechatronic
devices, computer aided surgery and Micro Electro Mechanical Systems (MEMS).
IF you select DESIGNING CAD/CAM,you will be treated
as software engineer,as you have to complete your task on computer.
In this you have to design the component and should analysis the component where stress will be taking place.
For this you should have logical thinking.
At present CAD/CAM as the good demand in top manufacturing companies.
In this you have to design the component and should analysis the component where stress will be taking place.
For this you should have logical thinking.
At present CAD/CAM as the good demand in top manufacturing companies.
Manufacturing & Industrial
Managment" best option because it have dual opportunity like into
industrial aswell software