Machine Design I (MCE-C 203) Mechatronics Dept., Faculty of Engineering, Fayoum University Dr. Ahmed Salah Abou Taleb Lecturer, Mechanical Engineering.

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Presentation transcript:

Machine Design I (MCE-C 203) Mechatronics Dept., Faculty of Engineering, Fayoum University Dr. Ahmed Salah Abou Taleb Lecturer, Mechanical Engineering Dept., Faculty of Engineering, Fayoum University 1

Mathematics Engineering Mechanics Strength of Materials Mathematics Engineering Mechanics Strength of Materials Workshop Processes Engineering Drawing Computing Finite Element Analysis, Computational Fluid Dynamics etc What is the basic knowledge required for Machine Design? Mathematics Engineering Mechanics Strength of Materials Workshop Processes Engineering Drawing Mechanics of Machines Mechanics of Materials Fluid Mechanics & Thermodynamics 2

Important considerations in Machine Design 1. Type of LOAD and STRESSes caused by the load Steady loads Dead loads Live loads Variable loads Shock loads (suddenly) Impact loads (applied with some velocity) Stress and strain (Tensile, compressive, shear) Thermal stresses Torsional stresses Bending stress 3

Important considerations in Machine Design….. 2. KINEMATICS of the machine (Motion of the parts) Find the simplest arrangement that would give the most efficient motion that is required. 3. Selection of MATERIALs Knowledge of the properties of the materials and their behaviour under working conditions is required. Strength, hardness, durability, flexibility, weight, resistance to heat and corrosion, electrical conductivity, machinability, etc. 4

Important considerations in Machine Design….. 3. Selection of MATERIALs Physical properties: Density, Melting point, Elec/thermal properties Mechanical properties: STRENGTH – resist externally applied loads without breaking or yielding STIFFNESS – resist deformation under stress ELASTICITY – regain original shape once the force is removed PLASTICITY – property which retains deformation (required for forging etc) DUCTILITY – ability to be drawn into a wire by a tensile force BRITTLENESS – sudden breaking with minimum distortion TOUGHNESS – resist fracture due to high impact load CREEP – deformation under stress and high temperature FATIGUE – ability to withstand cyclic stresses HARDNESS – resistance to wear, scratching, deformation, machinability etc Metal Non-metal FerrousNon-ferrous 5

Important considerations in Machine Design….. 4. Form and size of the parts Use I-beam or Angle-iron? The size will be determined by the forces/torques applied (stresses on the object) and the material used such that failure (fracture or deformation) would not occur 6

General procedure in Machine Design….. Detailed drawing Need or aim Synthesis Analysis of the FORCES Material selection Design of elements Modification Recognize and specify the problem Select the mechanism that would give the desired motion and form the basic model with a sketch etc Determine the stresses and thereby the sizes of components s.t. failure or deformation does not occur Modify sizes to ease construction & reduce overall cost Production 7

Design Skills Required Technical Drawing Computer-Aided Engineering (CAE) Manufacturing Processes Statics, Dynamics, and Strengths of Materials Kinematics and Mechanisms Verbal and Written Communication 8

9 Computer Aided Engineering (CAE) Any use of the computer and software to aid in the engineering process Computer-Aided Design (CAD) Drafting, 3-D solid modeling, etc. Computer-Aided Manufacturing (CAM) CNC tool path, rapid prototyping, etc. Engineering analysis and simulation Finite element, fluid flow, dynamic analysis, motion, etc. Math solvers Spreadsheet, procedural programming language, equation solver, etc.

10 Acquiring Technical Information Libraries Engineering handbooks, textbooks, journals, patents. Government sources Government agencies, U.S. Patent and Trademark, National Institute for Standards and Technology, etc. Professional Societies (conferences, publications, etc.) ASME, Society of Manufacturing Engineers, Society of Automotive Engineers, etc. Commercial vendors Catalogs, technical literature, test data, etc. Internet Access to much of the above information

Design Presentation Develop a specification set that communicates effectively all manufacturing information, safety information, usage information, etc. Specifications sets include: – CAD Models – Drawings (Assembly, Detail, Stress Reports) – Bills-of-Material – Instructions: Manufacturing Assembly Maintenance Usage 11

The Engineering Method Recognize and understand the problem Accumulate data and verify accuracy Select the appropriate theory or principle Make necessary assumptions Solve the problem Verify and check results 12

Problem Presentation Problem Statement Diagram Theory Assumptions Solution steps Identify results and verify accuracy 13