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B.Tech in Mechanical Engineering

Engineering mechanical systems through design, energy, automation, and advanced manufacturing.

4 Years | 8 Semesters

B.Tech.

School Of Engineering

Program Overview

The B.Tech in Mechanical Engineering builds foundational skills in thermodynamics, fluid mechanics, materials science, and machine design through semester-wise coursework and projects. Advanced semesters introduce electives, internships, and capstone projects focusing on real-world applications like CAD/CAM, Energy, and control systems.

Students gain expertise in mechanical system design, thermal and manufacturing processes, automation, materials behavior, simulation tools, and engineering analysis for solving real-world technical problems.

At a Glance

Duration

4 Years

Semesters

8 Semesters

Scholarship

Available

Eligibility

Qualification

12th Science

Subjects Required

PhysicsChemistryMaths

Minimum Score

45% in each subject and aggregate

Entrance Exams

JEE MainCETPULSE

Program Highlights

Strong Core Foundations

Emphasis on mechanics, design, manufacturing, thermodynamics

Advanced Laboratories

Hands-on learning using modern equipment and simulation tools

Industry Exposure

Internships, live projects, and industry-linked learning

Research Orientation

Opportunities in energy, materials, and advanced manufacturing

Syllabus

The curriculum progresses from engineering fundamentals to advanced applications, integrating analytical methods, laboratory experimentation, design projects, internships, and emerging technology exposure.

Year 1Fundamentals

SEM 1 & 2

Engineering MathematicsEngineering PhysicsEngineering MechanicsBasic Electrical EngineeringEngineering DrawingPython Programming

Year 2Core Engineering

SEM 3 & 4

Manufacturing Processes & TechnologyStrength of MaterialsThermodynamicsEngineering Metallurgy and MaterialsComputer Aided DraftingHuman Values and Social EthicsTheory of Machines and MechanismsRenewable energy sources sustainable development

Year 3Advance

SEM 5 & 6

Power EngineeringRenewable Energy for sustainable developmentReliability EngineeringMachine designOptimization TechniquesAutomotive Electronics

Year 4Capstone

SEM 7 & 8

Production Planning and ControlRefrigeration and Air conditioningTool EngineeringAdditive ManufacturingHybrid Electric VehiclesProcessing and Testing of MaterialsQuality EngineeringAutomotive Systems

Major Specialization Tracks

Students may select a specialization to develop deep expertise. Elective subjects will be based on the chosen track.

Design Engineering

Mechanical design, CAD modeling, and structural analysis

Thermal Engineering and Energy Science

Heat transfer, energy systems, and sustainability

Manufacturing Engineering

Advanced manufacturing processes and production optimization

Mechatronics and Robotics

Mechanical-electronic integration and automation systems

Materials Science and Nanotechnology

Advanced materials, composites, and nanotechnology

Non Destructive Testing

Creating NDT practitioners for the huge market of Oil & gas, marine and power industry. An Industry designed specialisation.

Program Outcomes

Design mechanical components and systems using engineering principles
Analyze thermal, manufacturing, and energy systems effectively
Implement automation and mechatronic solutions
Evaluate materials, processes, and system performance

Career Pathways

Graduates are equipped to work with top-tier tech companies and startups in a wide range of roles.

Mechanical Engineer

Design Engineer

Manufacturing Engineer

Automotive Engineer

Robotics Engineer

Energy Engineer

Aerospace Engineer

Quality Engineer

Research Engineer

Frequently Asked Questions

What skills are essential for mechanical engineering students?

Strong mathematics, physics understanding, analytical thinking, and interest in machines and systems.

What software tools are introduced during the program?

Students learn CAD, simulation, and analysis tools relevant to mechanical design and engineering applications.

Are research opportunities available for undergraduates?

Students can participate in faculty-led research, simulations, and advanced laboratory projects.

Does the program cover emerging technologies?

Yes, automation, robotics, advanced materials, and Industry 4.0 concepts are included.

Can graduates pursue higher studies?

Yes, graduates are well-prepared for postgraduate studies and research careers.