B.TECH(MECHANICAL) -SEDA PROGRAMME EDUCATIONAL OBJECTIVES: PEO1 PEO2 PEO3 PEO4 PEO5 Will be equipped with sound knowledge of mathematics, science and technology useful to build complex mechanical engineering solutions. Will adapt to rapidly changing environment in the area of mechanical engineering. Will have skills of analyzing, designing and implementing mechanical systems using fundamental principles, modern tools and methods. Will have professional, managerial, financial skills and imbibe ethical practices for a successful career. Will respond to growing demands of society through lifelong learning. PROGRAMME OUT COMES: At the end of the programme the learner will be able to PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 Apply knowledge of mathematics, science, and engineering with focus on mechanical engineering Identify, formulate and analyze a problem using principles of basic sciences and mechanical engineering. Design a system, component or process to fulfill desired needs within realistic constraints such as manufacturing, economic, environmental, social, ethical, safety and sustainability Design and conduct experiments as well as analyze and interpret data. Apply techniques, skills, and modern mechanical engineering tools such as CAD, CAM and CAE necessary for engineering practice. Acquire the broad education necessary to understand the impact of mechanical engineering solutions in the context of global, economic, environmental, cultural, legal and social issues. Understand professional and ethical responsibility with contemporary issues. Function effectively as an individual and as a member of multidisciplinary team. Communicate effectively with the engineering community and society. Apply project and financial management principles as a leader and team member in a multidisciplinary environment. Recognize the need and engage in life-long learning. Page 1 of 7
GRADUATE ATTRIBUTES: GA1 GA2 GA3 GA4 GA5 GA6 GA7 GA8 GA9 GA10 GA11 GA12 Engineering knowledge Problem analysis Design/development of solutions Conduct investigations of complex problems Modern tool usage The engineer and society Environment and sustainability Ethics Individual and Team work Communication Project management and finance Life-long learning PROGRAMME STRUCTURE: SESMESTER-III Code BTECHME301 BS Applied Mathematics - 3 5 BTECHME302 PC Thermodynamics 4 BTECHME303 PC Strength of Materials 4 BTECHME304 PC Material Science 3 BTECHME305 PC Material Science - Lab 1 BTECHME306 PC Manufacturing Lab - I 1 BTECHME307 PC Product development through solid modeling - I 2 BTECHME308 PC Product development through solid modeling - I Lab 2 BTECHME309 PW Mini Project 1 BTECHME310 BTECHME311 PE Fundamentals of MATLAB Fundamentals of Equity Market 0 Page 2 of 7
SESMESTER-IV Code BTECHME401 ES Electrical Engineering and Microcontroller 3 BTECHME402 PC Fluid Mechanics 3 BTECHME403 PC Manufacturing Processes 3 BTECHME404 PC Machine Drawing 2 BTECHME405 PC Theory of Machines I 3 BTECHME406 ES Electrical Engineering and Microcontroller Lab 1 BTECHME407 PC Fluid Mechanics Lab 1 BTECHME408 PC Machine Drawing Lab 1 BTECHME409 PC Theory of Machines I Lab 1 BTECHME410 PC Product development through solid modeling - II 2 BTECHME411 PC Product development through solid modeling - II Lab 2 BTECHME412 BTECHME413 PE Law for Engineers Entrepreneurship Development 1 SESMESTER-V Code BTECHME501 PC Applied Thermodynamics 3 BTECHME502 PC Fluid power and fluid machinery 3 BTECHME503 PC Machine Design I 3 BTECHME504 PC Production Metallurgy 3 BTECHME505 PC Theory of Machines II 3 BTECHME506 PC Applied Thermodynamics Lab 1 BTECHME507 PC Fluid Machinery and Fluid Power Lab 1 BTECHME508 PC Machine Design I Lab 1 BTECHME509 PC Theory of Machines II Lab 1 Page 3 of 7
BTECHME510 PC Benchmarking Engineering Theory 2 BTECHME511 PC Benchmarking Engineering Lab 2 SESMESTER-VI Code BTECHME601 PC Heat Transfer 3 BTECHME602 PC Machine Design II 3 BTECHME603 PC Metrology and Quality Control 3 BTECHME604 PC Numerical Methods 3 BTECHME605 PC Production Technology 3 BTECHME606 PC Heat Transfer Lab 1 BTECHME607 PC Machine Design II lab 1 BTECHME608 PC Metrology and Quality Control Lab 1 BTECHME609 PC Numerical Methods Lab 1 BTECHME610 PC Digital Manufacturing 2 BTECHME611 PC Digital Manufacturing Lab 2 SESMESTER-VII Code BTECHME701 PC Theory of Machines III 3 BTECHME702 PC Machine Design III 3 BTECHME703 PC Industrial Engineering 4 * PE DSE- I 3 ** PE DSE- II 3 BTECHME709 PC Theory of Machines III Lab 1 BTECHME710 PC Machine Design III Lab 1 BTECHME711 PC Seminar 2 BTECHME712 PRJ Project Stage I 3 Page 4 of 7
* DSE - I: Course Code Track Name Course Name BTECHME704 DSE-I: Design Track Finite Element Method BTECHME705 DSE-I: Thermal Track Heat Exchanger Design BTECHME706 DSE-I: Manufacturing Track Machine Tool Design BTECHME707 DSE-I: Allied Technology Track Robotics and Artificial Intelligence * DSE II: BTECHME708 DSE-II: Design Track Optimization Techniques BTECHME709 DSE-II: Thermal Track Power Plant Engineering BTECHME710 DSE-II: Manufacturing Track CAD/CAM and Automation BTECHME711 DSE-II: Allied Technology Track Advanced Metallurgy SESMESTER-VIII Course Code Course Course Name BTECHME801 PC Internal Combustion Engines 3 BTECHME802 PC Industrial Fluid Power 3 * PE DSE- III 3 ** PE DSE- IV 3 BTECHME808 PC Internal Combustion Engines Lab 1 BTECHME809 PC Industrial Fluid Power Lab 1 BTECHME810 PRJ Project Stage II 8 BTECHME801 PC Internal Combustion Engines 3 BTECHME802 PC Industrial Fluid Power 3 * DSE - III: Course Code Track Name Course Name BTECHME803 DSE-III: Design Track Mechanics of Composite Material BTECHME804 DSE-III: Thermal Track Refrigeratrion and Air conditioning Page 5 of 7
BTECHME805 DSE-III: Manufacturing Track Design for Manufacturing and Assembly / Advance Manufacturing Processes BTECHME806 DSE-III: Allied Technology Track Automobile Engineering * DSE IV: BTECHME807 DSE-IV: Design Track Design of Pumps, Blowers and Compressors / Fluid Power Engineering (O) BTECHME808 DSE-IV: Thermal Track Energy Audit and Management (O) BTECHME809 DSE-IV: Manufacturing Track Mechanical System Design BTECHME810 DSE-IV: Allied Technology Track Technology and Financial Management / Reliability Engineering AUDIT ELECTIVES: Audit Electives-1 Fundamentals of MATLAB Fundamentals of Equity Market Audit Electives-2 Law for Engineers Entrepreneurship Development DISCIPLINE SPECIFICS ELECTIVE: Discipline Specific Elective Tracks DSE-I: Design Track DSE-II: Design Track DSE-III: Design Track DSE-IV: Design Track DSE-I: Thermal Track DSE-II: Thermal Track DSE-III: Thermal Track DSE-IV: Thermal Track DSE-I: Manufacturing Track DSE-II: Manufacturing Track Course Name Finite Element Method Optimization Techniques Mechanics of Composite Material Design of Pumps, Blowers and Compressors / Fluid Power Engineering (O) Heat Exchanger Design Power Plant Engineering Refrigeratrion and Air conditioning Energy Audit and Management (O) Machine Tool Design CAD/CAM and Automation Page 6 of 7
DSE-III: Manufacturing Track DSE-IV: Manufacturing Track DSE-I: Allied Technology Track DSE-II: Allied Technology Track DSE-III: Allied Technology Track DSE-IV: Allied Technology Track Design for Manufacturing and Assembly / Advance Manufacturing Processes Mechanical System Design Robotics and Artificial Intelligence Advanced Metallurgy Automobile Engineering Technology and Financial Management / Reliability Engineering TEACHING LEARNING METHOD: Treating all students equal, regardless of age, gender, nationality, intellectual ability or personal attractiveness. Understanding student's point of view before attempting to give them your own. Teaching knowledge, skills and attitude for developing overall personality. Exposing students to industrial environment and problems experiential learning. Supplementing curriculum with industry-focused addon courses, workshops, internships and conferences. Using ICT Tools in teaching. EXPERIENTIAL LEARNING: Mechanical Engineering program allows students to apply their knowledge and conceptual understanding to real-world problems. They are encouraged to use modern tools & methods to solve these problems and are supplemented with various skill-based value-added courses on computer-aided design and engineering. Students also do internships in industries of repute and carry out minor and major projects. DEGREE REQUIREMENT: 183 credits to be earned All audit courses to be completed with S (Satisfactory) grade Minimum CGPA 4.0 Page 7 of 7