Bachelor of Engineering (Mechanical) Course Details

Bachelor of Engineering - Mechanical Course

Bachelor of Engineering in Mechanical popularly known as BE-Mechanical Engineering is an undergraduate programme in mechanical engineering. Mechanical Engineering course is one of the oldest branches of engineering which is a 4 years programme and the syllabus of this course is spread over 8 semesters. This programme includes different areas of study such as Mechanical vibrations, Design of machine elements, Manufacturing processes, Heat and Mass Transfer, Tool Engineering and Design, Computer Integrated Manufacturing and Robotics. Applicants will get brilliant knowledge and experience of all important engineering disciplines which will help to prepare them for selection of careers in Technology, Business, Engineering and Management.

Applicant will find this course easy when they have various skills like strong computational mathematics, creativity and analytical abilities. After completion of this course the major sectors which recruit mechanical engineers are automobile, space research, aviation, pharmaceuticals, air conditioning and refrigeration industry, bio medical, chemical, railway, oil and gas and turbine industry. Interested candidates can also go for the two-year masters program in mechanical engineering or ME/ M.Tech after the completion of this course.

BE-Mechanical Engineering Course Summary
Course Name Bachelor of Engineering in Mechanical
Commonly known as BE-Mechanical Engineering
Course Time Full Time
Duration 4 years
Stream Mechanical Engineering

Bachelor of Engineering (Mechanical) Course Eligibility Criteria

Students who assure the following conditions can apply for this programme:

  • Student should be passed in Higher Secondary Certificate Examination with PCM (Physics, Chemistry and Mathematics) as their compulsory subjects to apply for this course.
  • Student must have scored at least 45% or more Varies from institute to institute) aggregate marks in their HSC or its equivalent examination from a recognized University/ Board to be eligible for this programme.
  • Students must also have appeared for the entrance exam such as AIEEE or its equivalent state level exam to be eligible.
  • Student those who have done diploma in engineering from a polytechnic can are also eligible to these course direct in the second year through lateral entry.

Bachelor of Engineering (Mechanical) Course Syllabus

Subjects of Study
Design of Machine Elements
Fundamentals of Design
Mechanical Systems and Manufacturing Considerations in Design
Design of Fasteners and Joints
Design of Basic Machine Elements
Design of Springs
Measurements and Controls
Parameters for Measurement
Automatic Control Systems
Application of Control SystemsGas Dynamic and Space Propulsion
Basic Concepts and Isentropic Flows
Flow Through Ducts
Normal and Oblique Shocks
Jet Propulsion
Space Propulsion
Machine Tools
Turning Machines
Other Basic Machines gear Cutting Machines
Theory of Meta! Cutting
Computer Aided Design
The Design Process
Interactive Computer Graphics
Solid Modeling
Finite Element Analysis
Engineering Metrology
Basic Concepts of Measurements
Linear and Angular Measurements
Form Measurements
Laser Metrology
Advances in Metrology
Laboratory Exercise
Dynamics Lab
Thermal Engineering Laboratory I
I.C. Engines Lab & Fuels Lab
Steam Lab
Computer Aided Manufacturing
CAD / CAM Interface
Fundamentals of CNC Machines
Constructional Features of CNC Machines
Part Programming for CNC Machines
Production Planning and Control
Design of Jigs, Fixtures and Press Tools
Locating and Clamping Devices
Press Tools
Term Project
Heat and Mass Transfer

Convective Heat Transfer
Phase Change Heat Transfer and Heat Exchangers
Mass Transfer
TutorialsHydraulic and Pneumatic Controls
Basic Principles
Hydraulic Circuits
Design &Selection
Pneumatic Systems
Design &Selection
Design of Transmission Systems
Design of Flexible Power Transmission Systems
Spur Gears
Helical Bevel and Worm Gears
Design of Gear Boxes
Clutches and Brakes
CAM Laboratory
Thermal Engineering Laboratory II
Principles of Environmental Science and Engineering
Components of Environment
Science of Environment
Current Environmental Issues
Engineering Interventions to Reduce The Environmental Stresses
Professional Ethics
Engineering Ethics
Engineering as Social Experimentation
Engineer’s Responsibility for Safety
Responsibilities and Rights
Global Issues
Power Plant Engineering
Layout of Power Plant
Steam Boiler and Cycles
Fuel and Ash Handling, Combustion Chamber, Draught, Air Pollution
Instrumentation, Testing of Boilers, Power Plant Economics
Nuclear and MHD Power Generation
Sensors and Transducers
8055 Microprocessor
4 Programmable Logic Controllers
5 Design and Mechatronics
Process Planning and Cost Estimation
Process Planning
Estimating and Costing
Element of Cost
Product Cost Estimation
Estimation of Machining Time
Microprocessor Lab
Total Quality Management
TQM Principles
Statistical Process Control (SPC)
TQM Tools
Quality Systems
Engineering Management
Engineering Economics
Management of Work
The Management of Engineers
The Management of Engineering
Contemporary Management Issues
Operations Research
Linear Models
Network Models
Inventory Models
Queuing Theory
Decision Models
Automobile Engineering
Vehicle Structure and Engines
Engine Auxiliary Systems
Transmission Systems
Running Systems
Alternative Fuels/Power Plants
Lab Practice (for Internal Assessment Only)

Bachelor of Engineering (Mechanical) Employment Areas

  • Aeronautical Industry
  • Chemical Industry
  • Automobile Industry
  • Electronics Industry
  • Hotels
  • Construction Firms
  • Hospitals
  • Agricultural Industry
  • Industrial Machinery industry
  • Oil Exploration and Refining
  • Petroleum Industry
  • Consulting Firms
  • Power Plants
  • Steel Plants
  • Textile Industries


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