MS mechanical engineering - Superior University Lahore

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%

Semester 1

CoursesCredit Hours
Core-I3
Elective-I3
Elective-II3
Total9

Semester 2

CoursesCredit Hours
Core-II3
Elective-III3
Elective-IV3
Total9

Semester 3

CoursesCredit Hours
Core-III3
Thesis-I3
Total6

Semester 4

CoursesCredit Hours
Elective-V3
Thesis-II3
Total6

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.