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B.Tech. Mechanical Engineering - Advanced Manufacturing

Program details

The B.Tech. Mechanical Engineering (Advanced Manufacturing) program at UPES is designed to equip students with the latest skills and knowledge in modern manufacturing techniques. The specialized courses offered in the program cover a wide range of technologically advanced areas, such as Advanced Manufacturing Processes, Machine Controls, Microcontrollers, Manufacturing System and Simulation, and Control of CNC Machine Tools. Through a balanced approach of theoretical foundations, practical laboratory demonstrations, and industry-focused R&D projects, graduates are prepared to excel in the rapidly evolving field of advanced manufacturing.

One of the key aspects emphasized in the program is robotics, which plays a vital role in automating various manufacturing processes, enhancing productivity, and efficiency in industrial settings. Additive manufacturing, also known as 3D printing, is another crucial component of the curriculum, enabling the production of complex and customized parts, while offering advantages like reduced material wastage and faster production cycles. The collaboration with BOSCH through the BOSCH Centre of Excellence at UPES provides students with exposure to industry-relevant projects and fosters an environment of innovation and practical learning. Additionally, the availability of an industrial-scale VMC machine allows students to gain hands-on experience in operating large-scale manufacturing equipment, giving them a realistic understanding of industrial processes.

The faculty at UPES is highly experienced and comes from diverse backgrounds, including prestigious institutions like IIT and renowned foreign universities. This ensures that students receive world-class instruction and mentorship, keeping them updated with the latest advancements in advanced manufacturing. Overall, the B.Tech. Mechanical Engineering (Advanced Manufacturing) program at UPES empowers students to become future-ready professionals, well-versed in cutting-edge technologies and prepared to make significant contributions to the rapidly evolving manufacturing industry, particularly in the context of Industry 4.0.

Program Highlights

  • Explore the latest advancements in advanced manufacturing technologies, additive manufacturing, automation, and robotics to stay at the forefront of the industry.
  • Gain hands-on experience through real-world projects in collaboration with leading manufacturing companies, fostering practical skills and industry insights.
  • The B.Tech. Mechanical Engineering (Advanced Manufacturing) program provides access to state-of-the-art laboratories equipped with advanced machinery and software to enhance your proficiency in manufacturing processes and simulations.
  • Learn from experienced faculty members who possess a strong background in advanced manufacturing and are dedicated to shaping future engineering leaders.
  • Benefit from extensive industry connections, securing internship placements that offer valuable exposure to the manufacturing sector.
  • Avail personalized career guidance, workshops, and networking opportunities to ensure a seamless transition into a successful manufacturing engineering career.

The future scope of the B.Tech. Mechanical Engineering (Advanced Manufacturing) program is incredibly promising. Industries are on the verge of a revolution with advanced manufacturing technologies. Automation will soar with intelligent factories and autonomous robots, and additive manufacturing will become more prevalent, facilitating efficient and customizable production. The Internet of Things (IoT) will empower real-time data analysis and predictive maintenance, while digital twin technology will optimize processes and boost productivity. Sustainability will be a central focus, encouraging eco-friendly practices and circular economy principles. The integration of AI will drive decision-making and supply chain optimization, establishing agile and responsive networks. Embracing these trends will enable manufacturers to stay competitive, foster innovation, and unlock unprecedented growth and development opportunities. Aspiring students of B.Tech. Mechanical Engineering (Advanced Manufacturing) will find themselves at the forefront of transformative advancements that will shape the future of industries.

Career Opportunities

Completing the B.Tech. Mechanical Engineering (Advanced Manufacturing) program at UPES School of Advanced Engineering opens up a plethora of promising career opportunities for graduates. Equipped with a specialized skill set in advanced manufacturing techniques and mechanical engineering, graduates can pursue roles in cutting-edge industries such as aerospace, automotive, robotics, and additive manufacturing. They can explore job positions as manufacturing engineers, production managers, quality control specialists, design engineers, or research associates in R&D departments. With a strong foundation in the latest technologies and industry-relevant practices, UPES graduates are well-prepared to make significant contributions to the ever-evolving manufacturing sector and carve successful paths in their chosen fields.

Placements

The B.Tech. Mechanical Engineering (Advanced Manufacturing) program at UPES School of Advanced Engineering boasts outstanding placements, providing students with excellent career prospects. Graduates of this program have consistently secured lucrative job opportunities in various industries, including manufacturing, automotive, aerospace, and technology sectors. The curriculum is meticulously designed to equip students with the necessary skills and expertise in advanced manufacturing technologies, automation, and robotics. UPES' strong industry connections and collaboration with leading companies play a pivotal role in ensuring placements. Moreover, the university's dedicated career services team actively assists students in securing internships and placements, enabling them to embark on successful and rewarding professional journeys in the field of advanced manufacturing.

Fee Structure

Click here for detailed Fee Structure.

Curriculum

Semester 1

CourseLTPCredit
Critical Thinking and Writing2002
EVS 12002
Engineering Mathematics I3104
Physics3104
Object Oriented Programming3003
Workshop Practices1022
Object Oriented Programming Lab0021
Engineering Graphics1022
Physics Lab0021
TOTAL   21
,

Semester 2

CourseLTPCredit
Living Conversation2002
EVS 1(Living Lab)2002
Chemistry3003
Engineering Mathematics II3104
Basic Electrical and Electronics Engineering3003
Basic Electrical and Electronics Engg. Lab0021
Introduction to Mechanical Engineering2002
Engineering Mechanics3003
TOTAL   20
,

Semester 3

CourseLTPCredit
Design Thinking3003
Material Science3003
Engineering Thermodynamics3003
Fluid Mechanics3104
Computational Methods3003
Computational Methods Lab0021
Fluid Mechanics Lab0021
CAD Applications Lab0021
Social Internship0000
TOTAL   19
,

Semester 4

CourseLTPCredit
Working with Data2002
Exploratory 23003
Applied Thermodynamics3003
Heat Transfer3104
Mechanics of Materials3003
Manufacturing Processes3003
Material Science and Material Testing Lab0021
Heat Transfer Lab0021
Fluid Machinery3003
TOTAL   23
,

Semester 5

CourseLTPCredit
Leadership and Teamwork2002
Technologies for The Future2  2
Exploratory 33003
Theory of Machines3104
Machine Design3104
Advanced Manufacturing 
Processes
3003
Theory of Machines Lab0021
Capstone-I0021
Manufacturing Technology Lab0021
TOTAL   22
,

Semester 6

CourseLTPCredit
Start Your Start-up2002
Exploratory 43003
CAD/CAM3003
Mechanical Measurement 
and Metrology
2002
Internal Combustion Engines 
and Hybridization
3003
Engines Lab0021
Specialization-I3003
Capstone-II0002
Industrial Visit0000
TOTAL   19
,

Semester 7

CourseLTPCredit
Industrial Engineering and Management3003
Exploratory 53003
Mechanical Vibrations3003
Industrial Internship0011
Refrigeration & Air-conditioning3003
Refrigeration and Air-conditioning Lab0021
Specialization-II3003
Specialization-III3003
Measurement and Metrology Lab0021
Project 10002
TOTAL   23
,

Semester 8

CourseLTPCredit
Exploratory 63003
Operations Research3003
Project 20004
Specialization-IV3003
Specialization-V3003
Automobile Engineering2002
TOTAL   18

Eligibility

Interested students must meet the minimum eligibility criteria for B.Tech. Mechanical Engineering (Advanced Manufacturing), which are as follows: Minimum 50% marks in Classes X and XII. with 50% in PCM (Physics/Chemistry and Mathematics) in Class XII.

Selection Criteria

UPES' selection criteria for students interested in the B.Tech. Mechanical Engineering (Advanced Manufacturing) program are determined by the individual's performance in UPESEAT / JEE / Board Merit / SAT/ CUET.

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