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MS Mechanical Engineering
Build the skills to lead in MS Mechanical Engineering
Superior University’s MS Mechanical Engineering program balances academic theory with practical considerations while providing an advanced understanding of mechanical engineering. With a commitment to fostering analytical skills to comprehend the behaviour of complex engineering systems and components, the excellent faculty encourages the postgraduate students to imagine sustainable and creative solutions to overcome the challenges of the present as well as of the future.
Eligibility Criteria
BSc Mechanical Engineering/ BS-Tech Mechanical Engineering. Qualify GAT General (NTS) with 50% or GAT General (University) with 60%
- Course Duration: 2 Years
- Total Credit Hours: 30
- Semester: 4
Semester 1
Courses | Credit Hours |
---|---|
Core-I | 3 |
Elective-I | 3 |
Elective-II | 3 |
Total | 9 |
Semester 2
Courses | Credit Hours |
---|---|
Core-II | 3 |
Elective-III | 3 |
Elective-IV | 3 |
Total | 9 |
Semester 3
Courses | Credit Hours |
---|---|
Core-III | 3 |
Thesis-I | 3 |
Total | 6 |
Semester 4
Courses | Credit Hours |
---|---|
Elective-V | 3 |
Thesis-II | 3 |
Total | 6 |
List of Electives
Elective List |
---|
Advanced Manufacturing Processes |
Computer Integrated Manufacturing |
Laser Materials Processing |
Precision Manufacturing Systems |
Advanced Machining Processes |
3D Printing for Innovative Design and Pro |
duction |
Design of Machine Tools |
Artificial Intelligence in Design and Manu |
facturing |
Joining of Advanced Materials |
Quality Assurance |
Advanced CAD/CAM |
Product Design |
Materials Design and Processing |
Digital Manufacture and Rapid Manufacture |
Process Planning & Computer Aided Manu |
facturing |
Modeling, Simulation, and Visualization |
Design Management and Prediction |
Robotics and Manufacturing Automation |
Advanced Laser Processing |
CAD and Product Data Management |
Industrial Safety |
Industrial Management |
Finite Element Methods in Manufacturing |
Processes |
Product Design Fundamentals |
Rapid Prototyping |
Tribology |
Production & Operations Management |
Applied Computational Fluid Dynamics |
Fluid Mixing and Separation |
Advanced Heat Transfer |
Convective Heat Transfer |
Advanced IC Engines |
Thermal Energy Storage Systems |
Carbon Capture, Storage and Utilization |
Sustainable Energy Systems |
Energy Management |
Gas Turbine Engineering |
Boiling and Condensation Heat Transfer |
Industrial Air Conditioning and Refrigeration |
Internal Combustion Engines |
Fluidized Bed Combustion |
Advanced Thermodynamics |
Thermal Design of Heat Exchangers |
Analytical Methods for Partial Differential Equations |
Pressurized Systems |
Energy Management |
Boundary layer Theory |
Hydrodynamic Stability |
Two Phase Flow |
Turbulence |
Thermal Emission and Control |
Advanced Power Plant System |
Applied Solar Energy |
Renewable and Sustainable Energy Systems |
Robotics |
Automation and Control |
Advanced Control Systems |
Rotor-dynamics |
Non-linear Dynamics and Chaos |
Fatigue in Metals and Composites |
Mechanical Behavior of Materials |
Advanced Engineering Materials |
Fracture Mechanics |
Theory of Elasticity |
Theory of Plasticity |
Theory of Plates and Shells |
Finite Element Method |
Advanced Numerical Analysis |
Flow Induced Vibration |
Mathematical Modeling and Simulation |
Non-destructive Evolution of Structures and Materials |
Smart Structures |
Theory of Aeroelasticity |
Advanced Stress Analysis |
Advanced Solid Mechanics |
Condition Monitoring of Rotating Machines |
MEMS and micromachining |
Design Optimization and Analysis Techniques |
Mechanics of Composite Materials |
Advanced Mechanics of Materials |
Advanced Mechanical Vibrations |
*To accommodate modern trends, Institute may reserve the right to change course requirements, fees, course classifications, course contents, class schedules, venues, faculty and the like, whenever it deems appropriate.