Mechanical Engineering Course Details

The B.Tech program in Mechanical Engineering Course Details at the Puran Murti Campus is meticulously designed to serve as a comprehensive foundation for a career in one of the broadest and most adaptable branches of engineering. Mechanical engineers are the architects of motion and power, involved in the design, analysis, manufacture and maintenance of machines and mechanical systems that drive modern industry and infrastructure.

This guide provides an in-depth look into the four-year undergraduate program, focusing on the curriculum structure, specialized labs, teaching methodologies and the expansive career opportunities available upon graduation from the Puran Murti Campus.

Program Overview and Philosophy

The B.Tech Mechanical Engineering program is an eight-semester (four-year) full-time course aligned with the latest industry standards and academic requirements set by bodies like the AICTE.

• Core Philosophy: To blend the fundamental principles of physics, mathematics and materials science with practical application, enabling students to solve complex real-world problems related to thermal, structural and dynamic systems.
• Program Duration: 4 Years (8 Semesters).
• Focus Areas: The curriculum provides balanced exposure to Thermal Sciences, Design & Analysis and Manufacturing & Production.

Comprehensive Curriculum Structure

The curriculum is structured sequentially, moving from foundational sciences in the first year to specialized mechanical subjects and project-based learning in the final years.

Year 1: Foundational Sciences and Workshops

The initial year focuses on building a strong base in core engineering disciplines shared across all branches.

• Key Subjects: Engineering Mathematics (Calculus, Linear Algebra), Engineering Physics, Engineering Chemistry, Basic Electrical/Electronics Engineering, Programming (C/Python) and Engineering Graphics.
• Practical Focus: Mandatory hands-on experience in the Workshop Practice Lab which includes carpentry, fitting, welding and sheet metal working, providing early exposure to manufacturing processes.

Year 2: Core Mechanical Principles

This year marks the introduction of the fundamental subjects specific to Mechanical Engineering.

• Key Subjects:

  • Thermodynamics: Study of energy, heat and work, essential for power generation and refrigeration.
  • Solid Mechanics (Strength of Materials): Analyzing internal stresses, strains and deflection in solid objects.
  • Fluid Mechanics: Behavior of fluids at rest and in motion.
  • Theory of Machines: Analyzing the motion and forces in mechanical linkages, gears and cams.

• Laboratory Work: Dedicated labs for Fluid Mechanics, Thermodynamics and Material Testing.

Year 3: Advanced Applications and Design

The third year delves into specialized and advanced topics, focusing on design and thermal systems.

• Key Subjects:

  • Heat Transfer: Mechanisms of heat exchange (conduction, convection, radiation) applied to boilers and engines.
  • Machine Design: Principles of designing machine elements (e.g., shafts, bearings, gears) for specific functional requirements and safety margins.
  • Manufacturing Technology: Advanced processes like CNC machining, casting and forming.
  • I.C. Engines and Power Plants: Detailed study of internal combustion engines and various types of power generation cycles.

• Practical Focus: Design projects and CAD/CAM labs are integrated to apply theoretical knowledge to practical component creation.

Year 4: Specialization and Project Work

The final year concentrates on elective specialization, advanced management concepts and a mandatory capstone project.

• Electives: Students can choose specialized subjects such as Robotics, Automobile Engineering, Renewable Energy Systems, Cryogenics or Industrial Engineering.
• Core Subjects: Industrial Management, Operations Research and Finite Element Method (FEM).
• Major Project: A year-long project where students design, analyze, fabricate or test a mechanical system, showcasing their cumulative knowledge and problem-solving skills.

State-of-the-Art Facilities and Resources

The Puran Murti Campus provides specialized laboratories equipped with industry-relevant machinery and software to facilitate hands-on learning, which is paramount in Mechanical Engineering.

• Thermal Engineering Lab: Equipped with various engines (Petrol/Diesel), boiler models and refrigeration/air conditioning test rigs for studying thermal performance and efficiency.
• CAD/CAM Lab: Featuring industry-standard software (e.g., SolidWorks, AutoCAD, ANSYS) for computer-aided design, modeling and simulation. This is critical for modern design engineers.
• Production Technology Lab: Housing advanced machinery, including conventional and Computer Numerical Control (CNC) machines, providing experience in precision manufacturing.
• Metrology and Inspection Lab: Equipped with high-precision instruments to measure and verify dimensional accuracy of manufactured parts.

Career and Placement Opportunities

A B.Tech in Mechanical Engineering from the Puran Murti Campus offers one of the widest ranges of career trajectories among all engineering disciplines.

• Placement Cell Support: The campus maintains a dedicated placement cell that facilitates industrial training, internship opportunities and coordinates campus recruitment drives with leading national and multinational companies across the core mechanical sectors.

Skill Development and Industry Interface

Recognizing the need for industry-ready graduates, the program integrates several non-credit, skill-enhancing initiatives:

• Industry Visits: Regular tours of manufacturing plants, power generation facilities and fabrication units to understand real-world operations.
• Certification Courses: Encouragement and provision for certifications in specialized software like ANSYS (Simulation) or CATIA/SolidWorks (Design).
• Soft Skills Training: Workshops focused on communication, project management and teamwork, essential for engineering leadership roles.

The B.Tech Mechanical Engineering program at the Puran Murti Campus is more than just an academic degree; it is a rigorous, comprehensive and practical training ground that prepares students to innovate and lead in virtually every technological sector. By focusing on core engineering principles, providing access to advanced laboratories and maintaining strong industry ties, the campus ensures its graduates possess the knowledge and skills necessary to thrive in a dynamic global environment. Prospective students are encouraged to engage with the faculty and explore the campus facilities to fully appreciate the depth and breadth of this distinguished program.

Top B Tech Mechanical Engineering Colleges in India

If you are looking for good institutes, here are some well-known names to consider:

• Indian Institute of Technology (IIT) Kanpur
• Indian Institute of Technology (IIT) Delhi
• Delhi Technological University (DTU) (formerly Delhi College of Engineering).
• Netaji Subhas University of Technology (NSUT): (formerly Netaji Subhash Institute of Technology).
• National Institute of Technology (NIT) Delhi
• Puran Murti Campus (Formerly PM College of Engineering), Sonepat, Delhi -NCR
  • AICTE-approved program.
  • Advanced aircraft labs, flight simulators, and engines for training.
  • Placement tie-ups with airlines, defence, and MRO organisations.
  • Other nearby Delhi NCR colleges also attract students from Panipat due to accessibility and placement opportunities.