M.Tech. (Aerospace Engineering)

Master of Technology in Aerospace Engineering

Duration: 2 Years
Level: Post Graduation
Type: Degree
Eligibility: Graduation

M.Tech. Aerospace Engineering or Master of Technology in Aerospace Engineering is a two year post graduate Aeronautical Engineering course. Aerospace engineering is the primary branch of engineering concerned with the design, construction, and science of aircraft and spacecraft. Aerospace Engineering focuses on the designing, construction, development, testing, operation and maintenance of both commercial and military aircraft, spacecrafts and their components as well as satellites and missiles. Subjects usually studied under this degree are Academic Writing Research, Intro Engineering, Aerodynamics, and Introduction to Computing-FORTRAN, Aerospace Structure, Computing Environment, Physics Engineering, Aerospace Vehicle Design, Engineer Dynamics, Engineering Statics and Propulsion etc.

M.Tech. Aerospace Engineering Eligibility

  • B.E./ B.Tech. or equivalent degree with minimum 50%marks or equivalent CGPA.
  • Some of the very reputed universities and institutes conduct entrance examination to get admission to the degree course.

M.Tech. Aerospace Engineering Syllabus 

The following are study related subjects:-

Sr. No.

Subjects of Study

Sem. I

1

Introduction to Space Technology

2

Engineering Aerodynamics & Flight Mechanics++

3

Elements of Gas Dynamics & Propulsion++

4

Airplane and Aerospace Structures++

5

Laboratory I

6

PG Elective

Sem. II

1

Laboratory II (Str. Lab)

2

Aerodynamic Design

3

Elective I

4

Elective II

5

Elective IV

6

Elective V

Sem. III

1

Project

2

Structural Design

3

Elective V

4

Elective VI

5

Elective VII

Sem. IV

1

Project

 

List of electives

1

Physical Gas Dynamics

2

Object Oriented Prog. for Science & Engineers

3

Boundary Layer Theory

4

Computational Aerodynamics

5

Advanced Flight Mechanics

6

Transonic Aerodynamics

7

Advanced Aerodynamics

8

Helicopter Aerodynamics

9

Flight Testing and Performance Reduction

10

Numerical Methods in Gas Dynamics

11

Theory & Computation of Vortex Dominated Flows

12

Grid Generation

13

Introduction to CFD

14

Stability of Shear Flows

15

Hydrodynamic Stability, transition and Flow control

16

Unsteady Aerodynamics of Moving Bodies

17

Aerospace Systems Control and Estimation

18

Rocket Propulsion

19

Theory and Design of Gas Turbines

20

Performance of Gas Turbines

21

Combustion, Explosion and Detonation

22

Multiphase Flow

23

Hypersonic Air breathing Propulsion

24

Transport Processes in Reacting Flows

25

High Temperature Gas Dynamics

26

Radiation Heat Transfer

27

Theories of Modern Plate Structures

28

Analysis of Plates and Shells

29

Approximate Methods in Structural

30

Thermal Stress Analysis

31

Finite Element Analysis

32

Composite Structures

33

Energy Methods in Structural Analysis

34

Mechanics of Damage Tolerance

35

Mechatronics Design

36

Elasticity

37

Aero elasticity

38

Dynamics of Elastic Systems

39

Elastic Stability

40

Non­ Linear Behavior of Plates and Shells

41

Continuum Mechanics

42

Advanced Strength of Materials

43

Structural Dynamics and Aero elasticity

44

Contact Mechanics and Teratology

45

Hypersonic Flow Theory

46

Aerodynamics of Missiles and Launch Vehicles

47

Introduction to Turbulent Flows & their Predictions

48

Experimental Methods in Aero/ Gas Dynamics

49

Turbulent Flows and their Computation

50

System Simulation and Process Optimization

51

Acoustics Instabilities in Aerospace  Propulsion

52

Aero Acoustics

53

Combustion & Flow Diagnostics

54

Experimental Techniques in Structural Mechanics

 

M.Tech. Aerospace Engineering Colleges

M.Tech. Aerospace Engineering Course Suitability

  • Students should have a strong engineering background to gain advanced, yet broad knowledge in aerospace engineering, while encouraging specialization through a research project.
  • They should be able to design and estimate the performance of an aircraft, compute its aerodynamic properties, simulate its motion in flight, and analyze how its aerodynamic and structural properties influence stability and control.
  • They should be hard worker, can work for long hours and should be update with the developments in the very fields.

How is M.Tech. Aerospace Engineering Course Benefical?

  • The course is beneficial for enable the students to gain proficiency in highly advanced fields, such as space engineering, flight control and simulation, aero elasticity, computational fluid dynamics, advanced aerodynamics, combustion, computational mechanics and vehicular crashworthiness.
  • Course gives you advanced training in the sciences and technology that are currently most widely used in the fields of aeronautics and space.
  • The Master program includes the study of theoretical and practical groundwork, techniques, methods and processes of current use in aerospace research.
  • Graduates from this Master's Degree will be experts qualified to work in University departments, institutes or research centers in order to produce a doctoral thesis. R&D & I departments in industry in the aerospace field or similar.

M.Tech. Aerospace Engineering Job Types

  • Technical Manager - Software Development
  • Associate Professor - Aerospace Engineering
  • Professor - Aerospace Engineering
  • Aerospace Design Engineer
  • Project Manager - Aerospace
  • Manager - Learning and Development
  • Technical Manager - Software Development
  • Engineer - Proposal Engineering
  • Hardware Design Engineer
  • Engineering Planner
  • Aerospace Stress Designer
  • Aerospace Technical Writer
  • Aerospace Domain Experts
  • Sales Account Manager - Automotive and Aerospace
  • Project Manager - Aerospace
  • Technical Specialist - Stress (aerospace)
  Page Views: 2481 | Updated On: 06-Oct-2013