Description: “The CAD/CAM Technology course is designed to introduce the student to the application of computers in manufacturing. The course deals with computer aided drafting, robotics and manufacturing, computer assisted design and drafting (CAD) leading to the use of the CAD in computer aided manufacturing (CAM), CAD/CAM languages syntax, and application and programming of industrial robots. The course emphasizes practical applications and introduces principles of CNC machines, including programming and interfacing with different peripherals. The role of CAD/CAM in flexible manufacturing systems (FMS) and computer integrated manufacturing (CIM) is discussed. Laboratory exercises support and reinforce classroom activity”
Curriculum
- 1 Section
- 51 Lessons
- 10 Weeks
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- Computer Aided Design and Manufacturing51
- 2.1Lecture – 1 An Introduction to CAD
- 2.2Lecture – 2 Input Output Devices, Raster Graphics
- 2.3Lecture – 3 Raster Graphics – I
- 2.4Lecture – 4 Raster Graphics – II
- 2.5Lecture – 5 Polygon Filling
- 2.6Lecture – 6 Windowing and Clipping
- 2.7Lecture – 7 Clipping of Polygons
- 2.8Lecture – 8 2D Transformations
- 2.9Lecture – 9 3D Transformations and Projection
- 2.10Lecture – 10 Perspective Projections
- 2.11Lecture – 11 Projections and Hidden Surface Removal
- 2.12Lecture – 12 Hidden Surface Removal- 1
- 2.13Lecture – 13 Hidden Surface Removal- 2
- 2.14Lecture – 14 Hidden Surface Removal- 3
- 2.15Lecture – 15 Finite Element Method An Introduction
- 2.16Lecture – 16 Galerkin’s Approach
- 2.17Lecture – 17 Galerkin’s Method 1D Finite Element Method
- 2.18Lecture – 18 1D Finite Element Problems- 1
- 2.19Lecture – 19 1D Finite Element Problems- 2
- 2.20Lecture – 20 FE Problems Solving for Q
- 2.21Lecture – 21 1D FE Problems Galerkin’s Approach
- 2.22Lecture – 22 Penalty Approach and Multi Point Boundary
- 2.23Lecture – 23 Quadratic Shape Functions
- 2.24Lecture – 24 2D FE Problems- 1
- 2.25Lecture – 25 2D FE Problems- 2
- 2.26Lecture – 26 3D FE Problems- 3
- 2.27Lecture – 27 Computer Aided Design
- 2.28Lecture – 28 3D Tetrahedral and 2D Quadrilateral Element
- 2.29Lecture – 29 Mesh Preparation
- 2.30Lecture – 30 Modelling of Curves- 1
- 2.31Lecture – 31 Modelling of Curves- 2
- 2.32Lecture – 32 Modelling of Curves- 3
- 2.33Lecture – 33 Modelling of B-Spline Curves- 1
- 2.34Lecture – 34 Modelling of B-spline Curves- 2
- 2.35Lecture – 35 Surface Modelling- 1
- 2.36Lecture – 36 Surface Modelling- 2
- 2.37Lecture – 37 Display of Curves and Surfaces
- 2.38Lecture – 38 Solid Modelling- 1
- 2.39Lecture – 39 Solid Modelling- 2
- 2.40Lecture – 40 Solid Modeling- 3
- 2.41Lecture – 41 Solid Modelling Using Octrees
- 2.42Lecture – 42 What is CAD/CAM
- 2.43Lecture – 43 Computer Aided Manufacturing
- 2.44Lecture – 44 Parametric Cubic Curve
- 2.45Lecture – 45 Parametric Bezier Curve
- 2.46Lecture – 46 B-Spline Curve
- 2.47Lecture – 47 Parametric Surfaces – Part-1
- 2.48Lecture – 48 Parametric Surfaces – Part-2
- 2.49Lecture – 49 An Overview of Geometric Modeling
- 2.50Lecture – 50 Geometric & Product Data Exchange
- 2.51Lecture – 51 Reverse Engineering
