Syllabus
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Course Code: MTIP-103 Course Name: Computer Aided Design and Manufacturing |
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| MODULE NO / UNIT | COURSE SYLLABUS CONTENTS OF MODULE | NOTES |
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| 1 | Fundamentals of CAD: Introduction to CAD/CAM, Historical Development, Industrial Look at CAD/CAM, Application
of computers in design, Creating manufacturing database, Benefits of CAD. Computer Hardware, Graphic input
devices, display devices, Graphics output devices, Central processing unit (CPU). Geometric transformations: 2D and 3D; transformations of geometric models like translation, scaling, rotation, reflection, shear; homogeneous representations, concatenated representation; Orthographic projections, Numerical Problems |
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| 2 | Group Technology and Cellular Manufacturing Part families, parts classifications and coding, Production flow Analysis, cellular Manufacturing- composite part concept, machine cell design, applications of group technology, Grouping parts and machines by Rank order clustering technique, Arranging machines in a G.T. cell. Flexible Manufacturing Introduction, FMS components, Flexibility in Manufacturing – machine, Product, Routing, Operation, types of FMS, FMS layouts, FMS planning and control issues, deadlock in FMS, FMS benefits and applications |
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| 3 | Process Planning Introduction, Manual process planning, Computer aided process planning – variant, generative, Decision logicdecision tables, decision trees, Introduction to Artificial intelligence. Shop Floor Control Introduction, Shop floor control features, Major displays, Major reports, Phases of SFC Order Release, Order Scheduling, Order Progress, Manufacturing control, Methodology, Applications, Shop floor data collections, Types of data collection system, Data input techniques, Automatic data, Collection system. |
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| 4 | CNC Basics and Part Programming Introduction, Historical Background, Basic Components of an NC, Steps in NC, Verifications of Numerical control machine tool programs, Classification of NC Machine tool, Basics of motion control and feedback for NC M/C, NC part programming, Part programming methods, Modern Machining system, Automatically programmed tools, DNC, Adaptive control Automated Guided Vehicle Introduction, History, Features, Functions of AGV, Types of AGV, Safety consideration for AGV, Design of AGV. |
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