Cover image for Engineering Design Graphics with Autodesk Inventor 2020

Engineering Design Graphics with Autodesk Inventor 2020

Author James D. Bethune
Release Date: 2019/09/01
ISBN: 9780135563052
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Book Description

Using a step-by-step format, Engineering Design Graphics with Autodesk Inventor shows students how to use Autodesk Inventor to create and document designs. Chapter test questions help students assess their understanding of key concepts. Sample problems, end-of-chapter projects, and a variety of additional exercises reinforce the material and allow students to practice the techniques described. The content of the book goes beyond the material normally presented in an engineering graphics text associated with CAD software to include exercises requiring students to design simple mechanisms. This book includes the following features:

  • Step-by-step format throughout the text allows students to work directly from the text to the screen and provides an excellent reference during and after the course.
  • Exercises, sample problems and projects appear in each chapter, providing examples of software capabilities and giving students an opportunity to apply their own knowledge to realistic design situations.
  • Includes examples of how to create an animated assembly, apply dimension to a drawing, calculate shear and bending values, and more!
  • ANSI and ISO standards are discussed when appropriate, introducing students to both so they learn appropriate techniques and national standards.

Table of Contents

  1. Cover Page
  2. About This eBook
  3. Half-Title Page
  4. Title Page
  5. Copyright Page
  6. Preface
    1. Download Instructor Resources from the Instructor Resource Center
    2. Acknowledgments
  7. Brief Contents
  8. Contents
  9. Chapter One. Get Started
    1. Chapter Objectives
    2. Introduction
    3. Creating a First Sketch
    4. The Undo Tool
    5. Creating a Solid Model
    6. Sample Problem SP1-1
    7. Sample Problem SP1-2 Angular Shapes
    8. Chapter Summary
    9. Chapter Test Questions
    10. Chapter Project
  10. Chapter Two. Two-Dimensional Sketching
    1. Chapter Objectives
    2. Introduction
    3. The Sketch Panel
    4. Circle
    5. Arc
    6. Spline
    7. Ellipse
    8. Point
    9. Rectangle
    10. Fillet
    11. Chamfer
    12. Polygon
    13. Text
    14. Geometry Text
    15. Dimension
    16. Constraints
    17. Pattern—Rectangular
    18. Pattern—Circular
    19. Pattern—Mirror
    20. Move
    21. Copy
    22. Rotate
    23. Trim
    24. Extend
    25. Offset
    26. Editing a Sketch
    27. Sample Problem SP2-1
    28. Chapter Summary
    29. Chapter Test Questions
    30. Chapter Project
  11. Chapter Three. 3D Models
    1. Chapter Objectives
    2. Introduction
    3. Extrude
    4. Taper
    5. ViewCube
    6. Revolve
    7. Holes
    8. Fillet
    9. Full Round Fillet
    10. Face Fillet
    11. Creating a Variable Fillet
    12. Chamfer
    13. Face Draft
    14. Shell
    15. Split
    16. Mirror
    17. Rectangular Pattern
    18. Circular Pattern
    19. Sketch Planes
    20. Editing a 3D Model
    21. Default Planes and Axes
    22. Work Planes
    23. Sample Problem SP3-1
    24. Angled Work Planes
    25. Offset Work Planes
    26. Work Points
    27. Ribs (Webs)
    28. Loft
    29. Sweep
    30. Coil
    31. Model Material
    32. Chapter Summary
    33. Chapter Test Questions
    34. Chapter Project
  12. Chapter Four. Orthographic Views
    1. Chapter Objectives
    2. Introduction
    3. Fundamentals of Orthographic Views
    4. Orthographic Views with Inventor
    5. Isometric Views
    6. Section Views
    7. Offset Section Views
    8. Aligned Section Views
    9. Detail Views
    10. Break Views
    11. Auxiliary Views
    12. ASME Y14.3-2003
    13. Chapter Summary
    14. Chapter Test Questions
    15. Chapter Project
  13. Chapter Five. Assembly Drawings
    1. Chapter Objectives
    2. Introduction
    3. Bottom-Up and Top-Down Assemblies
    4. Starting an Assembly Drawing
    5. Degrees of Freedom
    6. Free Move and Free Rotate Tools
    7. Constrain
    8. Presentation Drawings
    9. Animation
    10. Isometric Drawings
    11. Assembly Numbers
    12. Parts List
    13. Title Block
    14. Subassemblies
    15. Drawing Sheets
    16. Other Types of Drawing Blocks
    17. Top-Down Assemblies
    18. Editing a Part within an Assembly Drawing
    19. Patterning Components
    20. Mirroring Components
    21. Copying Components
    22. Chapter Summary
    23. Chapter Test Questions
    24. Chapter Projects
  14. Chapter Six. Threads and Fasteners
    1. Chapter Objectives
    2. Introduction
    3. Thread Terminology
    4. Thread Callouts—Metric Units
    5. Thread Callouts—ANSI Unified Screw Threads
    6. Thread Representations
    7. Internal Threads
    8. Threaded Blind Holes
    9. Creating Threaded Holes Using the Hole Tool
    10. Standard Fasteners
    11. Sizing a Threaded Hole to Accept a Screw
    12. Screws and Nuts
    13. Types of Threaded Fasteners
    14. Flat-Head Screws—Countersunk Holes
    15. Counterbores
    16. Drawing Fasteners Not Included in the Content Center
    17. Sample Problem SP6-1
    18. Washers
    19. Setscrews
    20. Rivets
    21. Sample Problem SP6-2
    22. Chapter Summary
    23. Chapter Test Questions
    24. Chapter Project
  15. Chapter Seven. Dimensioning a Drawing
    1. Chapter Objectives
    2. Introduction
    3. Terminology and Conventions—ANSI
    4. Creating Drawing Dimensions
    5. Drawing Scale
    6. Units
    7. Aligned Dimensions
    8. Radius and Diameter Dimensions
    9. Dimensioning Holes
    10. Sample Problem SP7-1
    11. Dimensioning Counterbored, Countersunk Holes
    12. Angular Dimensions
    13. Ordinate Dimensions
    14. Baseline Dimensions
    15. Hole Tables
    16. Locating Dimensions
    17. Fillets and Rounds
    18. Rounded Shapes—Internal
    19. Rounded Shapes—External
    20. Irregular Surfaces
    21. Polar Dimensions
    22. Chamfers
    23. Knurling
    24. Keys and Keyseats
    25. Symbols and Abbreviations
    26. Symmetrical and Centerline Symbols
    27. Dimensioning to a Point
    28. Dimensioning Section Views
    29. Dimensioning Orthographic Views
    30. 3D Dimensions
    31. Sample Problem SP7-2
    32. Sample Problem SP7-3
    33. Chapter Summary
    34. Chapter Test Questions
    35. Chapter Projects
  16. Chapter Eight. Tolerancing
    1. Chapter Objectives
    2. Introduction
    3. Direct Tolerance Methods
    4. Tolerance Expressions
    5. Understanding Plus and Minus Tolerances
    6. Creating Plus and Minus Tolerances
    7. Limit Tolerances
    8. Angular Tolerances
    9. Standard Tolerances
    10. Double Dimensioning
    11. Chain Dimensions and Baseline Dimensions
    12. Tolerance Studies
    13. Rectangular Dimensions
    14. Hole Locations
    15. Choosing a Shaft for a Toleranced Hole
    16. Sample Problem SP8-1
    17. Sample Problem SP8-2
    18. Nominal Sizes
    19. Standard Fits (Metric Values)
    20. Hole and Shaft Basis
    21. Visual Presentations of the Hole and Shaft Tolerances
    22. Standard Fits (Inch Values)
    23. Preferred and Standard Sizes
    24. Surface Finishes
    25. Surface Control Symbols
    26. Geometric Tolerances
    27. Tolerances of Form
    28. Straightness
    29. Straightness (RFS and MMC)
    30. Circularity
    31. Cylindricity
    32. Geometric Tolerances Using Inventor
    33. Tolerances of Orientation
    34. Datums
    35. Perpendicularity
    36. Parallelism
    37. Angularity
    38. Profiles
    39. Runouts
    40. Positional Tolerances
    41. Virtual Condition
    42. Floating Fasteners
    43. Sample Problem SP8-3
    44. Sample Problem SP8-4
    45. Fixed Fasteners
    46. Sample Problem SP8-5
    47. Design Problems
    48. Chapter Summary
    49. Chapter Test Questions
    50. Chapter Projects
  17. Chapter Nine. Springs
    1. Chapter Objectives
    2. Introduction
    3. Compression Springs
    4. Extension Springs
    5. Torsion Springs
    6. Belleville Springs
    7. Springs in Assembly Drawings
    8. Chapter Summary
    9. Chapter Test Questions
    10. Chapter Projects
  18. Chapter Ten. Shafts
    1. Chapter Objectives
    2. Introduction
    3. Uniform Shafts and Chamfers
    4. Shafts and Retaining Rings
    5. Shafts and Keys
    6. Square Keys
    7. Pratt and Whitney Keys
    8. Woodruff Keys
    9. Shafts with Splines
    10. Collars
    11. O-Rings
    12. Drawing Shafts and Pins Using the Tools Under the Design Tab
    13. Chapter Summary
    14. Chapter Test Questions
    15. Chapter Projects
  19. Chapter Eleven. Bearings
    1. Chapter Objectives
    2. Introduction
    3. Plain Bearings
    4. Ball Bearings
    5. Thrust Bearings
    6. Chapter Summary
    7. Chapter Test Questions
    8. Chapter Projects
  20. Chapter Twelve. Gears
    1. Chapter Objectives
    2. Introduction
    3. Gear Terminology
    4. Gear Formulas
    5. Drawing Gears Using the Gear Tool
    6. Gear Hubs
    7. Gear Ratios
    8. Gear Trains
    9. Gears with Keyways
    10. Gear Assemblies
    11. Supports for Bevel Gears
    12. Worm Gears
    13. Supports for Worm Gears
    14. Chapter Summary
    15. Chapter Test Questions
    16. Chapter Projects
  21. Chapter Thirteen. Sheet Metal Drawings
    1. Chapter Objectives
    2. Introduction
    3. Sheet Metal Drawings
    4. Flat Patterns
    5. Punch Tool
    6. Chapter Summary
    7. Chapter Test Questions
    8. Chapter Projects
  22. Chapter Fourteen. Weldment Drawings
    1. Chapter Objectives
    2. Introduction
    3. Fillet Welds
    4. Weldments—Groove Welds
    5. Sample Problem SP14-1
    6. Chapter Summary
    7. Chapter Test Questions
    8. Chapter Project
  23. Chapter Fifteen. Cams
    1. Chapter Objectives
    2. Introduction
    3. Displacement Diagrams
    4. Drawing a Cam Using Inventor
    5. Sample Problem SP15-1
    6. Cams and Followers
    7. Chapter Summary
    8. Chapter Test Questions
    9. Chapter Projects
  24. Index
  25. Chapter Sixteen. Projects
    1. 16-1 Introduction
    2. 16-2 Project 1: Milling Vise
    3. 16-3 Project 2: Tenon Jig
  26. Appendix
18.191.181.231