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Machine Elements Design

What Will Learn?

  • Course Aims
    This course aims to: ● Differentiate between the deflection and buckling for beams. ● Evaluate the thermal stresses in items. ● Design various items under fatigue loading. ● Realize the constructional details required to design different machine elements & power transmission elements. ● Use different international standards in selection various items like bearings, belts, chain, etc. ● Design different power transmission elements like gears, couplings, etc. ● Design machine elements like bolts, power screw, rivets, keys, welded joints, etc. ● Use interactive Finite Element computer programs for problem solving.
  • Course Goals
  • Gender Equality
  • Affordable and Clean Energy
  • Industry, Innovation and Infrastructure

Requirements

MDP211 AND MDP212

Description

  • English Description

    Introduction to Design Concepts, Design of Machine Elements for static and dynamic loading (fatigue) of: Fasteners, Power Screws, Rivets, Keys, Welded Joints, Springs, Design of Power Transmission Elements (Shafts, Couplings, Gears), Selection of Bearings, Selection of Belt Drives and Chain Drives. Selection of Motor Drives including servo and stepper motors. Use of microcontrollers, sensors and actuators and programming. Use of interactive Finite Element computer programs for problem solving is illustrated and used. The course involves a project where students work in teams to design and manufacture a certain product which is linked to an industrial application.
  • Arabic Description

    Introduction to Design Concepts, Design of Machine Elements for static and dynamic loading (fatigue) of: Fasteners, Power Screws, Rivets, Keys, Welded Joints, Springs, Design of Power Transmission Elements (Shafts, Couplings, Gears), Selection of Bearings, Selection of Belt Drives and Chain Drives. Selection of Motor Drives including servo and stepper motors. Use of microcontrollers, sensors and actuators and programming. Use of interactive Finite Element computer programs for problem solving is illustrated and used. The course involves a project where students work in teams to design and manufacture a certain product which is linked to an industrial application.
  • Department
    Design and Production Engineering
  • Credit Hours
    4
  • Grades
    Total ( 100 ) = Midterm (20) + tr.Major Assessment (15 = tr.Industry 4% , tr.Project 12% , tr.Self_learning 4% , tr.Seminar 0% ) + tr.Minor Assessment (5) + tr.Oral/Practical (20) + Exam Grade (40)
  • Hours
    Lecture Hours: 2, Tutorial Hours: 2, Lab Hours: 3
  • Required SWL
    150
  • Equivalent ECTS
    6
  • a. Essential books (textbooks)
  • ● R.S. Khurmi, J. K. Gupta, "A Textbook of Machine Design", 13th Edition, Publishing House (Pvt.) LTD., 2004.
  • ● R. K. Rajput, " Strength of Materials ", 4th Edition, S. Chand & Company LTD, 2009.
  • ● Ammar Grous, " Applied Mechanical Design ", 1st Edition, Wiley, 2018. (EKB)
  • https://0810e73i0-1106-y-https-onlinelibrary-wiley-com.mplbci.ekb.eg/doi/book/10.1002/9781119137658
  • b. Recommended books
  • ● DR. H. J. Shah, S. B. Junnarkar, " Mechanics of Structures", 5th Edition, Charotar Publishing House, 2005.
  • ● Ferdinand P. Beer, E. Russell Johnston, Jr. John T. Dewolf, " Mechanics of Materials ", 4th Edition, Mc Graw Hill, 2006. (EKB)
  • ● Gitin M Maitra, L V Prasad, "Handbook of Mechanical Design ", 2nd Edition, Tata Mc Graw-Hill Publishing Company Limited, 2006.
  • ● Richard G. Budynas, J. Keith Nisbett, "Shigley's Mechanical Engineering Design", 19th Edition, Mc Graw Hill, 2011. (EKB). - R.S. Khurmi, J. K. Gupta, A Textbook of Machine Design, 13th Edition, Publishing House (Pvt.) LTD., 2004.