B. Tech. in
Mechanical Engineering

B. Tech. in Mechanical Engineering offered by SSN School of Engineering is a four-year undergraduate program, designed to provide students with a strong foundation in engineering principles and practical skills related to the design, analysis, manufacturing, and maintenance of mechanical systems. One of the broadest and most versatile engineering disciplines, the program covers key areas such as 

  • thermodynamics, 
  • fluid mechanics, 
  • heat transfer, 
  • materials science, 
  • machine design, 
  • manufacturing processes and 
  • automation.

The program blends theoretical knowledge with hands-on experience through laboratory work, industry visits, internships, and project-based learning. The program also offers career opportunities in Core industries like Automotive, Aerospace, Energy & Power, Oil & Gas, Manufacturing & Production, Robotics & Automation, Supply Chain & Logistics. It is the endeavour of the program to align with industry requirements with well-equipped laboratories, emphasis on research, innovation, entrepreneurship, internships.

Apply fundamental knowledge of mathematics, science, and mechanical engineering to identify, analyze, design, and solve real-world engineering problems.

Establish successful careers in mechanical engineering or allied fields, or pursue higher education and research in engineering, management, or related disciplines.

Contribute to the design, development, and optimization of mechanical systems and processes using modern tools, technologies, and innovative approaches.

Engage in continuous learning to keep pace with rapidly evolving technologies and industry demands, and to foster personal and professional growth.

The curriculum covers foundation and specialized courses, laboratory courses, project work and internships to cater industry and research requirements. This curriculum is structured to ensure that students gain a strong understanding of mechanical engineering principles, encouraging hands-on experience and developing problem-solving skills.

It includes:

Core engineering courses like Engineering Mechanics, Thermodynamics, Fluid Mechanics, Solid Mechanics, Manufacturing Processes, Machine Design, Material Science and Heat Transfer, Computer Aided Design and Finite Element Analysis

Industrial Engineering courses like Optimization Techniques, Production Planning and Control, Supply Chain Management, Engineering Economics, Principles of Quality Control

Specialized courses like Internal Combustion Engines, Refrigeration & Air conditioning, Mechatronics, Robotics, Renewable Energy

Design Projects, Mini Projects, Industrial Visits, Summer Internships, Design thinking courses

Increased focus on automation, robotics, and smart manufacturing systems

Additive manufacturing and Green manufacturing

Development of electric vehicles, HVAC, Solar photovoltaics and thermal energy.

Admissions