The Department of Mechanical & Automation Engineering combines core mechanical engineering principles with advanced automation technologies. It prepares students to design and optimize mechanical systems while integrating robotics and control systems. With practical labs and expert faculty, the program equips graduates for careers in manufacturing, automotive, aerospace, and automation industries.
Mission
To provide quality education that blends core mechanical engineering with modern automation and robotics technologies.
To foster research and development that addresses industrial challenges and promotes sustainable engineering solutions.
To collaborate with industry and academia to enhance learning and drive technological progress.
To equip students with practical skills, ethical values, and a spirit of innovation to excel in diverse engineering fields.
Vision
To be a leading department recognized for excellence in mechanical and automation engineering education, research, and innovation, preparing students to contribute to technological advancements globally.
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Programs Offered
B.Tech - Mechanical & Automation Engineering
The Mechanical & Automation Engineering program offers a blend of traditional mechanical engineering fundamentals and advanced automation technologies such as robotics, control systems, and intelligent manufacturing. Students gain hands-on experience in designing, analyzing, and optimizing mechanical and automated systems. The curriculum prepares graduates to meet industry demands in sectors like automotive, aerospace, manufacturing, and robotics, equipping them with the skills to innovate and lead in the evolving engineering landscape.
To develop graduates with strong fundamentals in mechanical engineering and automation technologies, capable of designing and optimizing mechanical and automated systems.
To prepare students for successful careers in industries such as automotive, aerospace, manufacturing, and robotics, with a focus on innovation and sustainability.
To foster lifelong learning, research, and ethical professional practices that contribute to technological advancement and societal well-being.
To cultivate teamwork, leadership, and effective communication skills necessary for multidisciplinary engineering projects.
Program Specific Outcomes (PSO)
Apply principles of mechanical engineering and automation to design, analyze, and improve complex mechanical systems and robotic applications.
Utilize modern tools and techniques for automation, control systems, and intelligent manufacturing processes.
Integrate knowledge of mechanical and automation systems to develop innovative and sustainable engineering solutions.
Programme Outcomes (POs)
Demonstrate knowledge of mathematics, science, and engineering fundamentals relevant to mechanical and automation engineering.
Identify, formulate, and solve engineering problems related to mechanical design and automation.
Conduct experiments, analyze data, and interpret results for decision-making and system improvements.
Apply professional ethics and responsibility in engineering practice.
Communicate effectively in both written and oral forms.
Work collaboratively in multidisciplinary teams to achieve project goals.
Engage in lifelong learning to adapt to evolving engineering technologies.
Understand the impact of engineering solutions on society and the environment.
Faculty
Meet our dedicated faculty members who bring expertise, passion, and innovation to the classroom.
We proudly collaborate with top companies that value talent and innovation, offering our students exceptional career opportunities.
From SSIET to the World’s Leading Companies
Graduates from SSIET are well-prepared to enter the world’s best companies. With strong technical expertise, innovative thinking, and problem-solving abilities, our alumni make a difference in shaping industries worldwide.
Step-by-step guide to submitting your application and joining our university community.
Scholarships
Discover scholarship opportunities to support your education and reward academic excellence.
Fee Structure
Clear and transparent details on tuition fees and other associated costs.
Eligibility Criteria
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Admission Requirements
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Campus Life
Experience a vibrant campus environment filled with activities, clubs, and support services.
Frequently asked Questions
Find answers to common questions about our Mechanical & Automation Engineering programs, admissions, and student resources.
What is Mechanical & Automation Engineering?
Mechanical & Automation Engineering combines traditional mechanical engineering principles with modern automation technologies like robotics, control systems, and intelligent manufacturing to design and optimize mechanical systems.
What career opportunities are available after completing Mechanical & Automation Engineering?
Graduates can work as mechanical engineers, automation engineers, robotics specialists, manufacturing engineers, process engineers, and maintenance engineers in industries like automotive, aerospace, manufacturing, and robotics.
What are the key subjects studied in this program?
Core subjects include Thermodynamics, Fluid Mechanics, Robotics, Control Systems, Manufacturing Processes, Automation Technologies, Mechatronics, and CAD/CAM.
Is practical training included in the Mechanical & Automation Engineering course?
Yes, the program includes laboratory work, industrial visits, internships, and projects to provide hands-on experience with mechanical systems and automation tools.
What skills will I develop during this program?
Students develop skills in mechanical design, automation and robotics programming, system analysis, problem-solving, teamwork, and project management.
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