Course Specifications B. Tech. Programme Course: Mechanical Engineering Department: Mechanical and Manufacturing Engineering Faculty of Engineering & TechnologyM. S. Ramaiah University of Applied Sciences University House, New BEL Road, MSR Nagar, Bangalore 560 054 www.msruas.ac.in MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 COURSE SPECIFICATIONS: MECHANICAL ENGINEERING FacultyEngineering and Technology (FET) DepartmentMechanical and Manufacturing Engineering CourseMechanical Engineering Dean of FacultyProf. H. K. Narahari Head of DepartmentProf. N. S. Mahesh 1Title of the Award B.Tech. in Mechanical Engineering 2Modes of StudyFull Time 3Awarding Institution /Body M.S. Ramaiah University of Applied Sciences 4Joint Award Not Applicable 5Teaching Institution Faculty of Engineering and Technology,M.S. Ramaiah University of Applied Sciences 6Date of Course Specifications February 2014 7Date of Course Approval bythe Academic Council of MSRUAS April 2014 8Next Review Date: March 2018 9Course Approving Regulating Body and Date of Approval -- 10Course Accredited Body and Date of Accreditation -- 11Grade Awarded by the Accreditation Body -- 12Course Accreditation Validity -- 13Course Benchmark N/A 14Rationale for the Course Mechanicalengineeringisoneoftheoldestdisciplinesofengineering.Designingand manufacturingofmechanicalmachineryandequipmenthavebeenthereworldoverformany centuries.MechanicalEngineeringisafoundationaldiscipline,criticaltothesuccessofmany enterprises.Itplaysakeyroleinenergy,transportation,developmentofinfrastructureand manufacturing of consumer durables. Presently,mechanicalengineersarecontributinginresearchanddevelopmentpertainingto environmentalandbio-medicalfields.Mechanicalengineersareresponsibleforselectionand processing of eco-friendly materials and processes, design and fabrication of medical devices and prostheses to improve quality of life.ThemechanicalengineeringcourseatFacultyofEngineeringandTechnologyatMSRUAShas beendevelopedbythemembersofthefacultybasedontheirteachingexperienceandlong standing interactions with various universities and industries in India and abroad. Thecurriculumisoutcomebasedandhelpsstudentstodevelopcriticalthinkingabilitiesand MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 2 of 13 imbiberelevantpracticalskillsforasmoothtransitionfromacademicstoreal-lifework environment.OpportunitiesareprovidedforthestudentstodotheirinternshipinIndiaor abroad depending on their preferences.The alumni of the faculty hold respected positions in industry and business in India and abroad. Thefacultyinteractswiththeindustryandbusinessofferingengineeringandconsultancy, productdesignanddevelopmentservicesalongwithtrainingmodulestopracticing professionals. The faculty interacts with more than 150 companies in public and private sectors includingOEMsspreadacrossIndia.Theabovementionedfeaturesofthecoursesandthe faculty membersstrongfootinginindustryandbusinessmake thecourseunique.Thestudent admittedtothecourseinmechanicalengineeringisgivenastrongfoundationinreal-life problem solving which is quite rare with many institutions offering similar courses. 15Course Aim The course aims to produce graduates with critical, analytical and problem solving skills, and ability to think independently, to pursue a career in Mechanical Engineering. 16Course Objectives TheMechanicalEngineeringdegreecoursewillimpartknowledgeofmechanicalsystemsand their sub systems; enhances the understanding of underlying engineering principles that govern the behavior of mechanical systems; teach analytical modeling, simulation and analysis to study thebehaviorofmechanicalsystems;providetheskillstodesign,buildandtestmechanical systems.Italsotrainsstudentsonpersonaldevelopmentandinteractiveskillswithafeelfor society.The objectives of the course are: 1.Tofacilitatetheunderstandingofunderlyingengineeringprinciplesofmechanicalsystems to explain their construction and working 2.Tomodel,simulateandanalyzethebehaviorofmechanicalsystemstopredictand improve their performance 3.To design and fabricate mechanical systems to meet the specific needs4.To instrument and test of mechanical systems for validation 5.Toeducateonprofessionalethics,economics,socialsciencesandinterpersonalskills relevant to professional practice6.To provide a general perspective and opportunities for a career in industry, business and commerce 17Intended Learning Outcomes of the Course The intended learning outcomes are listed under four headings: 1. Knowledge and Understanding, 2. Cognitive skills 3. Practical skills and4. Capability / Transferable skills. Knowledge and Understanding After undergoing this course, a student will be able to- KU1: Identify and describe the various systems of relevance to mechanical engineering KU2: Explain the underlying science and engineering principles that govern the systems/processes relevant to mechanical engineering KU3: Compare and contrast newer technologies over the existing technologies KU4: Collect, classify and interpret information relevant to mechanical engineering MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 3 of 13 Cognitive Skills After undergoing this course, a student will be able to- CS1: Design Mechanical systems/processes based on the desired function CS2: Model and simulate mechanical systems to analyze the behaviorCS3: Modify the existing design/processes to meet newer requirements CS4: Apply science and engineering principles to evaluate performance of mechanical systems andanswer what if questions Practical Skills After undergoing this course, a student will be able to- PS1: Manufacture/Fabricate mechanical components and assemble the system PS2: Instrument a system and test for its performance PS3: Operate and maintain a mechanical system for efficient and safe operations PS4: Program/Control a mechanical system to deliver desired level of performance Capability Skills / Transferrable Skills After undergoing the course, a student will be able to- TS1: Develop a technical report on mechanical system and make presentations TS2: Work in a team to design, model, simulate, and test a mechanical system TS3: Work under various constraints to meet project targets TS4: Able to take responsibilities to overcome difficult situations MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 4 of 13 18.Course Structure Semester -1, Physics Cycle [ME, E&C Branches] S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1BSC101AMathematics-13204100 2BSC102AEngineering Physics3204100 3ESC101A Elements of Mechanical Engineering 3003100 4ESC102A Elements of Electronics Engineering 3204100 5ESC103AEngineering Drawing1043100 6BSC103A Engineering Physics Laboratory 002150 7ESC104A Basic Workshop Practice 002150 8ESC105A Basic Electronics Laboratory 002150 9HSC101A Sociology and Elements of Indian History for Engineers 3003100 10MCC101A Technical Communication and Soft Skills 200250 Total1861026800 Total number of contact hours per week34 hours Number of credits can be registered Minimum21Maximum26 Semester -2 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1BSC104AMathematics-23204100 2BSC105AEngineering Chemistry4004100 3ESC106A Construction Materials and Engineering Mechanics 3204100 4ESC107A Elements of Electrical Engineering 3204100 5ESC108A Elements of Computer Science and Engineering 3204100 6ESC109A Computer Programming Laboratory 002150 7BSC106AChemistry Laboratory002150 8ESC110A Basic Electrical Laboratory 002150 9HSC102A Business Communication and Presentation Skill 3003100 10MCC102AEnvironmental Studies200250 Total218628800 Total number of contact hours per week35 hours Number of credits can be registered Minimum23Maximum28 MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 5 of 13 Semester -1, Chemistry Cycle [CE, CSE and EEE Branches] Semester -2 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1BSC104AMathematics-23204100 2BSC102AEngineering Physics3204100 3ESC101A Elements of Mechanical Engineering 3003100 4ESC102A Elements of Electronics Engineering 3204100 5ESC103AEngineering Drawing1043100 6BSC103A Engineering Physics Laboratory 002150 7ESC104A Basic Workshop Practice 002150 8ESC105A Basic Electronics Laboratory 002150 9HSC101A Sociology and Elements of Indian History for Engineers 3003100 10MCC101A Technical Communication and Soft Skills 200250 Total1861026800 Total number of contact hours per week34 hours Number of credits can be registered Minimum21Maximum26 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1BSC101AMathematics-13204100 2BSC105AEngineering Chemistry4004100 3ESC106A Construction Materials and Engineering Mechanics 3204100 4ESC107A Elements of Electrical Engineering 3204100 5ESC108A Elements of Computer Science and Engineering 3204100 6ESC109A Computer Programming Laboratory 002150 7BSC106AChemistry Laboratory002150 8ESC110A Basic Electrical Laboratory 002150 9HSC102A Business Communication and Presentation Skill 3003100 10MCC102AEnvironmental Studies200250 Total218628800 Total number of contact hours per week35 hours Number of credits can be registered Minimum23Maximum28 MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 6 of 13 Semester-3 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1BSC207AMathematics-33204100 2ESC201AMaterials Science3003100 3MEC201AStrength of Materials3204100 4MEC202A Engineering Thermodynamics 3003100 5MEC203AFluid Mechanics3204100 6MEC204A Strength of Materials Laboratory 002150 7MEC205A Fluid Mechanics Laboratory 002150 8MEC206AMachine Drawing0042100 9ESC202A Materials Science Laboratory 002150 10MCC201A Human Rights and Legislative Procedures 200250 Total1761025800 Total number of contact hours per week33 hours Number of credits can be registered Minimum20Maximum25 Semester-4 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1BSC208AMathematics-43204100 2MEC207ATurbomachinery4004100 3MEC208A Kinematics of Machinery 3003100 4 MEC209A Manufacturing Processes-1 3003100 5MEC210A Mechanical Measurements and Metrology 4004100 6HSC201A Economics for Engineers 200250 7MEC211A Measurements and Metrology Laboratory 002150 8MEC212A Turbomachinery Laboratory 002150 9MEC213A Foundry and Forging Lab 002150 10MEC214A Mechanisms and Kinematics Simulation Laboratory 002150 Total192824750 Total number of contact hours per week29 hours Number of credits can be registered Minimum19Maximum24 MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 7 of 13 Semester- 5 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1MEC301A Applied Thermodynamics-1 2203100 2MEC302ADynamics of Machinery4004100 3MEC303A Control Systems Engineering 4004100 4MEC304A Design of Machine Elements-1 4004100 5HSC301ALaw for Engineers200250 6MEC305A Manufacturing Processes-2 3003100 7MEC306AMachine Shop -1002150 8MEC307A Dynamics and Simulation Laboratory 002150 9MEC308A Control Systems Laboratory 002150 10MEC309A Applied Thermodynamics Lab-1 002150 Total1920824750 Total number of contact hours per week29 hours Number of credits can be registered Minimum19Maximum24 Semester-6 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1MEC310A Applied Thermodynamics 2 2203100 2MEC311A Design of Machine Elements-2 4004100 3MEC312AIndustrial Engineering4004100 4MEEXXXA Professional Core Elective-1 4004100 5MEEXXXA Professional Core Elective-2 4004100 6MEC313A Applied Thermodynamics Lab-2 002150 7MEC314AMachine Shop -2002150 8MECP31A Project Work 1/Internship 00168100 Total1822029700 Total number of contact hours per week40 hours Number of credits can be registered Minimum24Maximum29 Note: Internship can be in any Industry, Business, University or Research organization in India or abroad. MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 8 of 13 Semester-7 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1MEC401A Heatand Mass Transfer 4004100 2MEC402AFinite Element Methods4004100 3MEC403AIndustrial Management3003100 4MEEXXXA Professional Core Elective-3 4004100 5OEC401AOpen Elective-14004100 6OEC402AOpen Elective-24004100 7MEC404ACAE Lab002150 8MEC405A Heat Transfer Laboratory 002150 9MEC406ASeminar002150 Total23000626750 Total number of contact hours per week29 hours Number of credits can be registered Minimum21Maximum26 Semester-8 S.No.CodeSubject Title Theory (h/W/S) Tutorials (h/W/S) Practical (h/W/S) Total Credits Max. Marks 1MEEXXXA Professional Core Elective-4 4004100 2OEC403AOpen Elective-34004100 3OEC404AOpen Elective-44004100 4MECP42AProject Work -2002412100 Total1202424400 Professional Core Electives: 1.Semester 6 group 1.MEE401A: Advanced Mechanics of Materials 2.MEE402A: Noise, Vibration and Harshness 3.MEE403A: Automation in Manufacturing 4.MEE404A: Design for X 5.MEE405A: Modern Automotive Systems 6.MEE406A: Aircraft Systems 7.MEE407A: Supply Chain Management 8.MEE408A: Quality Management and Six Sigma 2.Semester 7 group 1.MEE409A: Fatigue and Fracture Mechanics 2.MEE410A: Surface Engineering 3.MEE411A: Operations Research 4.MEE412A: Automotive Powertrain 5.MEE413A: Powerplant Engineering 3.Semester 8 group 1.MEE414A: Robotics 2.MEE415A: Manufacturing System Simulation 3.MEE416A: Design of Experiments MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 9 of 13 4.MEE417A: Computational Fluid Dynamics 5.MEE418A: Renewable and Direct Energy Conversion Systems Open Electives: A number of electives from faculty of engineering, management and commerce, art and design, hospitality management and catering technology, pharmacy, dental sciences will be announced one semester prior to the scheduled semester. 19Course Delivery As per the Time Table 20Teaching and Learning Methods 1.Face to Face Lectures using Audio-Visuals 2.Workshops, Group Discussions, Debates, Presentations 3.Demonstrations 4.Guest Lectures 5.Laboratory work/Field work/Workshop 6.Industry Visit 7.Seminars 8.Group Exercises 9.Project Work 10. Project Exhibitions 11. TechnicalFestivals 21Assessment and Grading 1.Every subject will be assessed for a weight of 100 2.There are two components-Component-1 and Component-2 3.Component-1 carries a weight of 50% and Component -2 carries a weight of 50% 4.Component -1 (CE) is subdivided into Tests and Assignments, tests carry 25% weight and assignment carry 25% weight. 5.Component -2 is a written examination (SEE) carries 50% weight 6.Laboratory Examination will have two components: Component -1(CE): Conduction of Laboratory Exercises and Submission of Report: 50% weightComponent -2: SEE (Semester End Laboratory Examination): 50% weight 7.A minimum of overall 40% is required for a pass with 40% in each of the Components 8.The marks distribution for each subject is given in the course structure - Section 18 9.Other flexibilities are as per the Academic Regulations of B. Tech. Programme. 22Attendance A minimum of 85% attendance is compulsory to appear for semester end examinations. Condoning of attendance shortage is as per the Academic Regulations of B. Tech. Programme. 23Award of Class As per the Academic Regulations of B. Tech. Programme 24Student Support for Learning 1.Subject Notes 2.Reference Books in the Library 3.Magazines and JournalsMSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 10 of 13 4.Internet Facility 5.Computing Facility 6.Laboratory Facility 7.Workshop Facility 8.Staff Support 9.Lounges for Discussions 10. Any othersupport that enhances their learning 25Quality Control Measures 1.Review of Subject Notes 2.Review of Question Papers and Assignment Questions 3.Student Feedback 4.Moderation of Assessed Work 5.Opportunities for students to see their assessed work 6.Review by external examiners and external examiners reports 7.Staff Student Consultative Committee meetings 8.Student exit feedback 9.Subject Assessment Board(SAB) 10.Programme Assessment Board(PAB) MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 11 of 13 26Curriculum Map Subject Code Intended Learning Outcomes Knowledge and Understanding Cognitive (Thinking) Skills (Critical, Analytical, Problem Solving) Practical skills HSCBSCESCMECOECMCC KU1KU2KU3KU4CS1CS2CS3CS4PS1PS2PS3PS4 abcDef 101A101A101A201A401A101Acdcdcdcdddd 102A102A102A202A402A102Acdcdcdcddd 201A103A103A203A403A201Addddddddbdd 301A104A104A204A404Acddd 105A105A205Abbbbcddd 106A106A206Acdcdccdddb 207A107A207Acdcdcdcddddd 208A108A208Addcdcddddd 109A209Adddddc 110A210Addddddddc 201A211Accddd 202A212Addd 213Addd 214Addd 301Adddddddd 302Adddddddd 303Adddddddd 304Adddddd 305Addddd 306Addd 307Addd 308Addd 309Addd 310Adddddddd 311Adddddddd 312Adddd 313Addd 314Addd 401Adddddddd 402Addddddd 403Adddd 404Adddd 405Addd 406A MEE1A* MEE2A* MEE3A* MEE4A* P31Adddddddddddd P42Adddddddddddd 1026301181606Total 206 credits *Depends on elective subject chosen MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 12 of 13 27Capability / Transferable Skills Map Subject CodeSkills HSCBSCESCMECOECMCC GKSLWCOCPBIMPMLAO abcdef 101A101A101A201A401A101Aabcdefabcdefabcdefffafabcdefabcdeffa 102A102A102A202A402A102Aabcdefabcdefabcdefabcdefaaabcdefabcdefafaf 201A103A103A203A403A201Aabcdefabcdefabcdefbafabcdefabcdefa 301A104A104A204A404Aabcdeabcdeabcdecaabcdeabcdea 105A105A205Abcdbcdbcdcdbcdbcd 106A106A206Abcdbcdbcdbbcdbcd 207A107A207Abcdbcdbcdbcdbcd 208A108A208Abcdbcdbcdcbcdbcd 109A209Acdcdcdccdcd 110A210Acdcdcdccdcd 201A211Acdcdcddcdcd 202A212Acdcdcdcdcdcd 213Adddddd 214Adddddd 301Addddd 302Addddd 303Addddd 304Addddd 305Addddd 306Adddddd 307Adddddd 308Adddddd 309Adddddd 310Addddd 311Addddd 312Addddd 313Adddddd 314Adddddd 401Addddd 402Addddd 403Addddd 404Adddddd 405Adddddd 406Addddddddd MEE1Addddd MEE2Addddd MEE3Addddd MEE4Addddd P31Adddddddddd P42Adddddddddd GK: Group Work, SL: Self Learning, WC: Written Communication, OC: Oral Communication, P: Presentation, B: Behavioral,IM: Information Management, PM: Personal Management, L: Leadership,AO: Any Other MSRUASB.Tech. [Mech. Engg.] - Course Specifications-2014 Faculty of Engineering and TechnologyPage 13 of 13 28Co curricular Activities Students are encouraged to take part in co-curricular activities like seminars, conferences, symposia, paper writing, attending industry exhibitions, project competitions and related activities for enhancing their knowledge and networking. 29Cultural and Literary Activities Annual cultural festivals are held to showcase the creative talents in students. They are involved in planning and organizing the activities.30Sports and Athletics Students are encouraged to take part in sports and athletic events regularly. Annual sports meet will be held to demonstrate sportsmanship and competitive spirit.