B.Tech in Mechanical Engineering (Automobile)

B.Tech in Mechanical Engineering (Automobile)

  • Program Code

    15

  • Level

    Graduate

  • Duration

    4 Years

About the Programme
The Department of Mechanical Engineering has strategic alliances with over 30 corporations, which include Dassault Systémes, Ashok Leyland, HAL, Vedanta, RSB Global, other than CTTC, CIPET, IIW & NSIC, to provide the best theoretical and practical training, as well as placement opportunities. The focus is on design (CAD) to manufacturing, CNC production, new materials, and automobile engineering, it has a record 20 Cr+ production (including ICAT approved e-vehicles) every year. With access to industry sponsored labs, toolrooms (Odisha Govt. approved), state-of-the-art welding and BDT testing labs. The students also undertake composite manufacturing using FRP. Emphasising on Digital Manufacturing, Robotic Welding and Additive Manufacturing, the department also designs, manufactures, and sells 3D printers. With its product and manufacturing focus, the department is truly a jewel in the crown of SoET.

Domains

AUTOMOBILE ENGINEERING (In collaboration with Ashok Leyland / Hyundai / Yamaha / Eicher / Volvo) Course Overview Automobile Engineering is one of the major strength areas of the university. The university works with all major OEMs (two-wheel, four-wheel and earth-moving equipment) in India. With the focus on understanding the latest available IC and electric vehicle technology, the university has authorized service technician training centers of Ashok Leyland and Eicher Motors, and labs that are equipped with dynamic cut sections of 6-stroke engines complying with Bharat 6 emission norms. With this specialization, students learn electric vehicle technology (two, three, and four wheels) through simulation and assembly, and complete vehicle diagnostics using Bosch tools through robust industry partnerships. Duration- Four years Scope/Job Opportunity
  • Aerospace Industry
  • Automobile Industry
  • Thermal Plants
  • Steel Plants
  • Shipping Industry
  • Mechatronics Robotics
  • Auto Parts Manufacture
  • Welding and Fabrication
Eligibility Criteria
  • 10+2 (Physics, Chemistry, Maths) 50% and 5% relaxation for reserved category
  • Centurion University Entrance Exam(CUEE) Score
Scope/Job Opportunity
  • Executive and Managerial Positions
  • Senior Production Engineer
  • Automotive Sales Engineer
  • Quality and Service Engineer
  • Automotive Developer and Technician
  • Automotive Technician
WELDING AND INSPECTION Course Overview, To ensure the quality and safety of connections between metals, certified welding inspectors play an intrinsic role in the welding industry. With this specialization, students are trained in TiG, MiG, Gas Welding, Submerged Arc Welding, Butt Welding, Pressure Welding, Plasma Cutting and NDT procedures. They can also do parallel industry certifications from IIW leading to AMIE in welding. The curriculum is fully aligned with NSQF and IIWs Level 1 and 2 with an option of obtaining a Level 4 certification from IIW. The department has a corporate support from Badve Group and Vedanta, which has enabled state-of-the-art welding labs including robotic welding. Scope/Job Opportunity
  • Welding Engineers
  • Welding Inspector
  • Site Quality Engineer
  • Quality Control Inspector
COMPUTATIONAL FLUID DYNAMICS Course Overview Computational Fluid Dynamics (CFD) is the analysis of fluid flows using numerical solution methods. Using CFD, students can analyse complex problems involving fluid-fluid, fluid-solid or fluid-gas interaction. Engineering fields that frequently use CFD analyses are aerodynamics and hydrodynamics, where quantities such as lift and drag or field properties like pressures and velocities are obtained. This specialization equips students with the necessary skills to work as a professional and provides hands-on experience in top OEMs. Grounded in the concepts of FEA and FVM, students learn multibody physics simulation and get to work on real-time industry problems using proprietary machines and analysis tools like SIMULIA, HyperMesh and Ansys. Application areas include aerospace engineering, marine engineering, and the automotive industry. Scope/Job Opportunity
  • Safety Simulator Engineer
  • Aerodynamics Engineer
  • Computational Fluid Dynamics Engineer
  • Computational Fluid Dynamics
MANUFACTURING (CONVENTIONAL AND CNC MACHINE, ADDITIVE) Course Overview Conventional machining can be defined as a process using mechanical energy. The CNC (Computer Numerical Control) course involves taking digitized data, a CAD and CAM program to control, automate, and monitor the movements of a machine. The machine can be a milling machine, lathe, router, welder, grinder, laser or waterjet cutter, sheet metal stamping machine, robot, or many other types of machines. Additive Manufacturing is a new addition of this course where manufacturing is done by layers. The university has designed its own 3D printer and manual machines, Bfw and ACE company production CNC machines (3, 4 and 5 axis) as well as plastic and metal 3D printing machines. Coupled with Dassault’s 3D experience platform, the university has the capability to conceptualise digitally designed test and make a physical prototype of any idea or product. Trained in industrial production processes, quality control, digital design, BOM preparation, vendor selection, manufacturing planning and manufacturing execution system (MES), students are competent to make a design of any product by reverse engineering as well as make a product from any idea. The university also does contract manufacturing for many national and international clients, giving students a chance to work on industry production orders. Scope/Job Opportunity
  • Production Engineer
  • Quality Control Engineer
  • CNC Machine Operator
  • CNC Cylindrical Grinding Machine Operator
  • CNC Online Inspector
AUTOMOTIVE DESIGN Course Overview Automotive Design is a program that trains students in designing, manufacturing, and maintenance of an automobile. The main interest of Automotive Design Engineers is creating ideas and concepts via rough sketches and computer-aided design (CAD). This specialization gives students a visual appearance as they learn the functional performance before developing the actual vehicle. Students also get to work on Dassault's 3D experience tools such as CATIA, SIMULIA DELMIA, and ENOVIA, and learn system optimization using Matlab and Dymola tools. Failure analysis and testing is done using SIMULIA, HyperMesh and Ansys. The special focus is on automotive sub-domains like BIW, electric wire harness, interiors and exteriors. Scope/Job Opportunity
  • Automotive Designer
  • Aerospace Designer l Vehicle Inspector
  • Auto Body Repair Technician
  • Auto Sales Manager
  • Auto Engineer l Auto Designer
  • Quality Testing Engineer
DIGITAL MANUFACTURING Course Overview Digital manufacturing is the application of computer systems to manufacturing services, supply chains, products and processes. Digital manufacturing technologies link systems and processes across all areas of production to create an integrated approach to manufacturing. This specialization teaches modern technologies for transforming industrial processes and driving values using digital tools and techniques. Students are equipped to connect the shop floor to the top floor and implement a manufacturing execution system using tools like Apriso and Ortems. The special partnership with Dassault Systémes helps the university possess the unique advantage of using real-time industry tools in this emerging area. Scope/Job Opportunity
  • MES Engineer
  • Production Manager
  • Quality Control Engineer
  • Systems Engineer
  • Design Electronics Manager
  • Hardware & Network Engineer
  • Digital Manufacturing
  • Manufacturing Unit Manager
  • Manufacturing Engineer
Course Fee
Fee Per Semester Fee Per Year
FOR VIZAG CAMPUS 1,05,000
Syllabus
SUBJECT NAME SUBJECT CODE THEORY PRACTICE PROJECT CREDIT
Differential Equations and Laplace Transformation CUTM1001 2 0 1 3
Linear Algebra & Vector Calculus CUTM1002 2 0 1 3
Complex Analysis & Numerical Methods CUTM1003 2 0 1 3
Discrete Mathematics CUTM1004 2 0 1 3
Probability & Statistics CUTM1005 2 0 1 3
Mechanics for Engineers CUTM1006 2 1 0 3
Optics and Optical Fibres CUTM1007 2 1 0 3
Applied Analytical Chemistry CUTM1008 2 1 0 3
Applied Engineering Materials CUTM1009 2 0 1 3
Environmental Studies CUTM1010 0 0 2 2
SUBJECT NAME SUBJECT CODE THEORY PRACTICE PROJECT CREDIT
Optimisation Techniques CUTM1011 0 2 0 2
Engineering Economics and Costing CUTM1012 2 0 1 3
Project Management CUTM1013 2 0 1 3
Gender, Human Rights and Ethics CUTM1014 1.5 0 1.5 3
Climate Change, Sustainability and Organisation CUTM1015 1.5 0 1.5 3
SUBJECT NAME SUBJECT CODE THEORY PRACTICE PROJECT CREDIT
Industrial IOT and Automation CUTM1017 3 2 1 6
Data Analysis and Visualisation using Python CUTM1018 0 1 3 4
Machine Learning using Python CUTM1019 1 2 1 4
Robotic automation with ROS and C++ CUTM1020 1 2 1 4
Design Thinking CUTM1021 0 0 2 2
System Integration with DYMOLA CUTM1022
Eligibility Criteria
  • 10+2 (Physics, Chemistry, Maths) 50% and 5% relaxation for reserved category
  • Centurion University Entrance Exam (CUEE) Score
Career path you can choose after the course
  • Aerospace Industry
  • Automobile Industry
  • Thermal Plants
  • Steel Plants
  • Shipping Industry
  • Mechatronics
  • Robotics

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