Book description
Engineering Graphics with AutoCAD 2017 teaches technical drawing using AutoCAD 2017 as its drawing instrument, complying with ANSI standards. Taking a step-by-step approach, it encourages students to work at their own pace and uses sample problems and illustrations to guide them through the powerful features of this drawing program. Nearly 150 exercise problems provide instructors with a variety of assignment material and students with an opportunity to develop their creativity and problem-solving capabilities. 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.
Covers the latest in dynamic blocks, user interface improvements, and productivity enhancements.
Exercise, 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 standards are discussed when appropriate, introducing students to the appropriate techniques and national standards.
Illustrations and sample problems provided in every chapter, supporting the step-by-step approach by illustrating how to use AutoCAD 2017 and its features to solve various design problems.
Table of contents
- Cover
- Title Page
- Copyright Page
- Preface
- Brief Contents
- Contents
- Chapter 1 Getting Started
-
Chapter 2 Fundamentals of 2D Construction
- 2-1 Introduction
- 2-2 Line—Random Points
- 2-3 Erase
- 2-4 Line—Snap Points
- 2-5 Line—Dynamic Inputs
- 2-6 Construction Line
- 2-7 Circle
- 2-8 Circle Centerlines
- 2-9 Polyline
- 2-10 Spline
- 2-11 Ellipse
- 2-12 Rectangle
- 2-13 Polygon
- 2-14 Point
- 2-15 Text
- 2-16 Move
- 2-17 Copy
- 2-18 Offset (See Figure 2-46.)
- 2-19 Mirror (See Figure 2-47.)
- 2-20 Array
- 2-21 Rotate
- 2-22 Trim
- 2-23 Extend
- 2-24 Break
- 2-25 Chamfer
- 2-26 Fillet
- 2-27 Table
- 2-28 Exercise Problems
-
Chapter 3 Advanced Commands
- 3-1 Introduction
- 3-2 Osnap
- 3-3 Osnap—Endpoint
- 3-4 Osnap—Snap From
- 3-5 Osnap—Midpoint
- 3-6 Osnap—Intersection
- 3-7 Osnap—Apparent Intersection
- 3-8 Osnap—Center
- 3-9 Osnap—Quadrant
- 3-10 Osnap—Perpendicular
- 3-11 Osnap—Tangent
- 3-12 Osnap—Nearest
- 3-13 Sample Problem SP3-1
- 3-14 Sample Problem SP3-2
- 3-15 Grips
- 3-16 Grips—Extend
- 3-17 Grips—Move
- 3-18 Grips—Rotate
- 3-19 Grips—Scale
- 3-20 Grips—Mirror
- 3-21 Blocks
- 3-22 Working with Blocks
- 3-23 Wblock
- 3-24 Layers
- 3-25 Attributes
- 3-26 Title Blocks with Attributes
- 3-27 Edit Polyline
- 3-28 Edit Spline
- 3-29 Edit Text
- 3-30 Constructing the Bisector of an Angle—Method I
- 3-31 Constructing the Bisector of an Angle—Method II
- 3-32 Constructing an Ogee Curve (S-Curve) with Equal Arcs
- 3-33 Constructing a Parabola
- 3-34 Constructing a Hyperbola
- 3-35 Constructing a Spiral
- 3-36 Constructing a Helix
- 3-37 Designing by Using Shape Parameters
- 3-38 Exercise Problems
- Chapter 4 Sketching
-
Chapter 5 Orthographic Views
- 5-1 Introduction
- 5-2 Three Views of an Object
- 5-3 Visualization
- 5-4 Hidden Lines
- 5-5 Hidden Line Conventions
- 5-6 Drawing Hidden Lines
- 5-7 Precedence of Lines
- 5-8 Slanted Surfaces
- 5-9 Projection Between Views
- 5-10 Sample Problem SP5-1
- 5-11 Compound Lines
- 5-12 Sample Problem SP5-2
- 5-13 Oblique Surfaces
- 5-14 Sample Problem SP5-3
- 5-15 Rounded Surfaces
- 5-16 Sample Problem SP5-4
- 5-17 Holes
- 5-18 Holes in Slanted Surfaces
- 5-19 Cylinders
- 5-20 Sample Problem SP5-5
- 5-21 Cylinders with Slanted and Rounded Surfaces
- 5-22 Sample Problem SP5-6
- 5-23 Drawing Conventions and Cylinders
- 5-24 Irregular Surfaces
- 5-25 Sample Problem SP5-7
- 5-26 Hole Callouts
- 5-27 Castings
- 5-28 Sample Problem SP5-8
- 5-29 Thin-Walled Objects
- 5-30 Sample Problem SP5-9
- 5-31 Intersections
- 5-32 Sample Problem SP5-10
- 5-33 Sample Problem SP5-11
- 5-34 Sample Problem SP5-12
- 5-35 Designing by Modifying an Existing Part
- 5-36 Drawing Standards
- 5-37 Third- and First-Angle Projections
- 5-38 Exercise Problems
-
Chapter 6 Sectional Views
- 6-1 Introduction
- 6-2 Cutting Plane Lines
- 6-3 Section Lines
- 6-4 Hatch
- 6-5 Sample Problem SP6-1
- 6-6 Styles of Section Lines
- 6-7 Sectional View Location
- 6-8 Holes in Sections
- 6-9 Gradients
- 6-10 Offset Sections
- 6-11 Multiple Sections
- 6-12 Aligned Sections
- 6-13 Drawing Conventions in Sections
- 6-14 Half, Partial, and Broken-Out Sectional Views
- 6-15 Removed Sectional Views
- 6-16 Breaks
- 6-17 Sectional Views of Castings
- 6-18 Exercise Problems
-
Chapter 7 Auxiliary Views
- 7-1 Introduction
- 7-2 Projection Between Normal and Auxiliary Views
- 7-3 Sample Problem SP7-1
- 7-4 Transferring Lines Between Views
- 7-5 Sample Problem SP7-2
- 7-6 Projecting Rounded Surfaces
- 7-7 Sample Problem SP7-3
- 7-8 Projecting Irregular Surfaces
- 7-9 Sample Problem SP7-4
- 7-10 Sample Problem SP7-5
- 7-11 Partial Auxiliary Views
- 7-12 Sectional Auxiliary Views
- 7-13 Auxiliary Views of Oblique Surfaces
- 7-14 Secondary Auxiliary Views
- 7-15 Sample Problem SP7-6
- 7-16 Secondary Auxiliary View of an Ellipse
- 7-17 Exercise Problems
-
Chapter 8 Dimensioning
- 8-1 Introduction
- 8-2 Terminology and Conventions
-
8-3 Linear Dimension
- To Create a Horizontal Dimension by Selecting Extension Line Locations or Origins (See Figure 8-5.)
- To Create a Vertical Dimension
- To Create a Horizontal Dimension by Selecting the Object to Be Dimensioned (See Figure 8-6.)
- To Change the Default Dimension Text—Text Option
- To Change the Default Dimension Text— Mtext Option
- To Edit an Existing Dimension
- 8-4 Dimension Styles
- 8-5 Units
- 8-6 Aligned Dimensions (See Figures 8-29 and 8-30.)
- 8-7 Radius and Diameter Dimensions
- 8-8 Angular Dimensions
- 8-9 Ordinate Dimensions
- 8-10 Baseline Dimensions
- 8-11 Continue Dimension
- 8-12 Quick Dimension
- 8-13 Center Mark
- 8-14 Mleader and Qleader
- 8-15 Text Angle
- 8-16 Tolerances
- 8-17 Dimensioning Holes
- 8-18 Placing Dimensions
- 8-19 Fillets and Rounds
- 8-20 Rounded Shapes (Internal)
- 8-21 Rounded Shapes (External)
- 8-22 Irregular Surfaces
- 8-23 Polar Dimensions
- 8-24 Chamfers
- 8-25 Knurling
- 8-26 Keys and Keyseats
- 8-27 Symbols and Abbreviations
- 8-28 Symmetry and Centerline
- 8-29 Dimensioning to Points
- 8-30 Coordinate Dimensions
- 8-31 Sectional Views
- 8-32 Orthographic Views
- 8-33 Very Large Radii
- 8-34 Exercise Problems
-
Chapter 9 Tolerancing
- 9-1 Introduction
- 9-2 Direct Tolerance Methods
- 9-3 Tolerance Expressions
- 9-4 Understanding Plus and Minus Tolerances
- 9-5 Creating Plus and Minus Tolerances with AutoCAD
- 9-6 Limit Tolerances
- 9-7 Creating Limit Tolerances by Using AutoCAD
- 9-8 Angular Tolerances
- 9-9 Standard Tolerances
- 9-10 Double Dimensioning
- 9-11 Chain Dimensions and Baseline Dimensions
-
9-12 Tolerance Studies
- To Calculate A’s Maximum Length
- To Calculate A’s Minimum Length
- 9-13 Rectangular Dimensions
- 9-14 Hole Locations
- 9-15 Choosing a Shaft for a Toleranced Hole
- 9-16 Sample Problem SP9-1
- 9-17 Sample Problem SP9-2
- 9-18 Standard Fits (Metric Values)
- 9-19 Nominal Sizes
- 9-20 Hole and Shaft Basis
- 9-21 Sample Problem SP9-3
- 9-22 Standard Fits (Inch Values)
- 9-23 Sample Problem SP9-4
- 9-24 Preferred and Standard Sizes
- 9-25 Surface Finishes
- 9-26 Surface Control Symbols
- 9-27 Design Problems
- 9-28 Exercise Problems
-
Chapter 10 Geometric Tolerances
- 10-1 Introduction
- 10-2 Tolerances of Form
- 10-3 Flatness
- 10-4 Straightness
- 10-5 Straightness (RFS and MMC)
- 10-6 Circularity
- 10-7 Cylindricity
-
10-8 Geometric Tolerances Created by Using AutoCAD
- To Define a Datum
- To Define a Straightness Value
- To Create a Positional Tolerance
- To Create a Basic Dimension
- To Create Basic Dimensions from Existing Dimensions
- To Add a Limit Feature Tolerance to a Hole
- To Add a Positional Tolerance to the Hole’s Feature Tolerance
- To Add a Geometric Tolerance with a Leader Line
- 10-9 Tolerances of Orientation
- 10-10 Datums
- 10-11 Perpendi cularity
- 10-12 Parallelism
- 10-13 Angularism
- 10-14 Profiles
- 10-15 Runouts
- 10-16 Positional Tolerances
- 10-17 Virtual Condition
- 10-18 Floating Fasteners
- 10-19 Sample Problem SP10-1
- 10-20 Sample Problem SP10-2
- 10-21 Fixed Fasteners
- 10-22 Sample Problem SP10-3
- 10-23 Design Problems
- 10-24 Exercise Problems
-
Chapter 11 Threads and Fasteners
- 11-1 Introduction
- 11-2 Thread Terminology
- 11-3 Thread Callouts (Metric Units)
- 11-4 Thread Callouts (English Units)
- 11-5 Thread Representations
- 11-6 Orthographic Views of Internal Threads
- 11-7 Sectional Views of Internal Thread Representations
- 11-8 Types of Threads
- 11-9 How to Draw an External Square Thread
- 11-10 How to Draw an Internal Square Thread
- 11-11 How to Draw an External Acme Thread
- 11-12 Bolts and Nuts
- 11-13 Screws
- 11-14 Studs
- 11-15 Head Shapes
- 11-16 Nuts
- 11-17 Sample Problem SP11-1
- 11-18 Sample Problem SP11-2
- 11-19 Standard Screws
- 11-20 Setscrews
- 11-21 Washers
- 11-22 Keys
- 11-23 Rivets
- 11-24 Springs
- 11-25 Tool Palettes
- 11-26 Exercise Problems
-
Chapter 12 Working Drawings
- 12-1 Introduction
- 12-2 Assembly Drawings
- 12-3 Drawing Formats (Templates)
- 12-4 Title Block
- 12-5 Revision Block
- 12-6 Tolerance Block
- 12-7 Release Block
- 12-8 Parts List (Bill of Materials—BOM)
- 12-9 Detail Drawings
- 12-10 First-Angle Projection
- 12-11 Drawing Notes
- 12-12 Design Layouts
- 12-13 Sample Problem SP12-1
- 12-14 Sample Problem SP12-2
- 12-15 Sample Problem SP12-3
- 12-16 Exercise Problems
-
Chapter 13 Gears, Bearings, and Cams
- 13-1 Introduction
- 13-2 Types of Gears
- 13-3 Gear Terminology—Spur
- 13-4 Spur Gear Drawings
- 13-5 Sample Problem SP13-1
- 13-6 Sample Problem SP13-2
- 13-7 Sample Problem SP13-3
- 13-8 Selecting Spur Gears
- 13-9 Center Distance Between Gears
- 13-10 Sample Problem SP13-4
- 13-11 Combining Spur Gears
- 13-12 Gear Terminology—Bevel
- 13-13 How to Draw Bevel Gears
- To Draw a Matched Set of Beveled Gears
- 13-14 Worm Gears
- 13-15 Helical Gears
- 13-16 Racks
- 13-17 Ball Bearings
- 13-18 Sample Problem SP13-5
- 13-19 Bushings
- 13-20 Sample Problem SP13-6
- 13-21 Cam Displacement Diagrams
- 13-22 Cam Motions
- 13-23 Cam Followers
- 13-24 Sample Problem SP13-7
- 13-25 Exercise Problems
-
Chapter 14 Fundamentals of 3D Drawing
- 14-1 Introduction
- 14-2 The World Coordinate System
- 14-3 Viewpoints
- 14-4 Perspective and Parallel Grids
- 14-5 3D Modeling
- 14-6 User Coordinate System (UCS)
- 14-7 Editing a Solid Model
- 14-8 Visual Styles
- 14-9 Rotating a UCS Axis
- 14-10 Sample Problem SP14-1
- 14-11 Visual Errors
- 14-12 Sample Problem SP14-2
- 14-13 Orthographic Views
- 14-14 Line Thickness
- 14-15 Using the Thickness Command to Create Objects
- 14-16 Exercise Problems
-
Chapter 15 Modeling
- 15-1 Introduction
- 15-2 Box
- 15-3 Sphere
- 15-4 Cylinder
- 15-5 Cone
- 15-6 Wedge
- 15-7 Torus
- 15-8 Extrude
- 15-9 Revolve
- 15-10 Helix
- 15-11 Polysolid
- 15-12 Loft
- 15-13 Intersect
- 15-14 Union and Subtract
- 15-15 Solid Modeling and UCSs
- 15-16 Combining Solid Objects
- 15-17 Intersecting Solids
- 15-18 Solid Models of Castings
- 15-19 Thread Representations in Solid Models
- 15-20 List
- 15-21 Massprop
-
15-22 Face and Edge Editing
- To Extrude a Face (See Figure 15-65.)
- To Extrude a Face Along a Path
- To Extrude Two Faces at the Same Time (See Figure 15-67.)
- To Move a Face (See Figure 15-68.)
- To Offset Faces (See Figure 15-69.)
- To Rotate a Face (See Figure 15-70.)
- To Taper a Face
- To Copy a Face
- To Copy Edges (See Figure 15-73.)
- To Imprint an Object (See Figure 15-74.)
- 15-23 Exercise Problems
- Index
- Chapter 16 Projects
Product information
- Title: Engineering Graphics with AutoCAD® 2017
- Author(s):
- Release date: August 2016
- Publisher(s): Peachpit Press
- ISBN: 9780134507620
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