B.E. Mechanical Engineering:Non Traditional MachiningThapar University
Price on request
First Year: Semester I
First Year: Semester-II
Electrical and Electronic Science
Second Year- Semester - I
Numerical and Statistical Methods
Material Science and Engineering
Kinematics of Machines
Mechanics of Deformable Bodies
Second Year- Semester – II
Measurement Science and Techniques
Power Generation and Economics
Machine Design – I
Dynamics of Machines
Computer Aided Design
Human Values, Ethics and IPR
Measurement and Metrology Lab
Third Year- Semester – I
Industrial Metallurgy and Materials
Machine Design – II
Total Quality Management
Summer Training(6 Weeks during summer vacations after 2nd year)
Third Year- Semester – II
Industrial Training (6 Weeks )
Fourth Year- Semester – I
Heat and Mass Transfer
Computer Aided Manufacturing
Production Planning and Control
Mechanical Vibrations and Condition Monitoring
Fourth Year- Semester – II
Refrigeration and Air Conditioning
Non Traditional Machining
Introduction: Classification of non-traditional Machining Processes, considerations in process selection.
Mechanical Processes: Ultrasonic machining. Elements of USM, Mechanics of cutting, effect of parameters on material removal rate and surface finish, economic considerations, applications and limitations, recent developments; Abrasive Jet Machining, variables affecting material removal rate, applications advantages and limitations;
Electro-Chemical and Chemical Processes: Electro-Chemical Machining: Elements of the process, Electrolytes and their properties. Chemistry of the process, metal removal rate; advantages, applications and limitations of the process.
Chemical Machining: Elements of the process, Resists and Etchants, Advantages and applications.
Thermal Processes: Electric Discharge machining: Mechanism of metal removal, EDM Equipment , Dielectric fluids, selection of electrode material, accuracy and surface finish applications.
Plasma Arc Machining: Mechanism of Metal Removal, PAM parameters. Economics and applications of Plasma jets.
Electron Beam Machining: Generation and control electron beam, Theory of Electron Beam Machining Process capabilities and limitations.
Laser Beam Machining: Principles of working. Thermal aspects, material removal, Advantages and Limitations.