Overview

In Engineering Graphics with AutoCAD 2023, award-winning CAD instructor and author James Bethune teaches technical drawing using AutoCAD 2023 as its drawing instrument. Taking a step-by-step approach, this textbook 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. More than 680 exercise problems provide instructors with a variety of assignment material and students with an opportunity to develop their creativity and problem-solving capabilities. Effective pedagogy throughout the text helps students learn and retain concepts: * 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. * Latest coverage is provided for dynamic blocks, user interface improvements, and productivity enhancements. * 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. * ANSI standards are discussed when appropriate, introducing students to the appropriate techniques and national standards. * Illustrations and sample problems are provided in every chapter, supporting the step-by-step approach by illustrating how to use AutoCAD 2023 and its features to solve various design problems. Engineering Graphics with AutoCAD 2023 will be a valuable resource for every student wanting to learn to create engineering drawings.

Full Product Details

Author:   Jim Bethune ,  David Byrnes
Publisher:   Pearson Education (US)
Imprint:   Peachpit Press Publications
Dimensions:   Width: 10.00cm , Height: 10.00cm , Length: 10.00cm
Weight:   1.860kg
ISBN:  

9780137929993

ISBN 10:   0137929994
Pages:   832
Publication Date:   30 August 2022
Audience:   College/higher education ,  Undergraduate
Format:   Paperback
Publisher's Status:   Active
Availability:   Not yet available  
This item is yet to be released. You can pre-order this item and we will dispatch it to you upon its release.

Table of Contents

Chapter 1 Getting Started 1 1-1 Introduction 2 1-2 Tabs and Panels 5 1-3 The Command Line Window 6 1-4 Command Tools 7 1-5 Starting a New Drawing 8 1-6 Naming a Drawing 8 1-7 Drawing Units 11 1-8 Drawing Limits 13 1-9 Grid and Snap 17 1-10 Drawing Problem 18 1-11 Save and Save As 21 1-12 Open 23 1-13 Close 24 1-14 Exercise Problems 25 Chapter 2 Fundamentals of 2D Construction 29 2-1 Introduction 29 2-2 Line--Random Points 29 2-3 Erase 32 2-4 Line--Snap Points 34 2-5 Line--Dynamic Input 35 2-6 Construction Line 38 2-7 Circle 42 2-8 Circle Centerline 45 2-9 Polyline 46 2-10 Spline 50 2-11 Ellipse 51 2-12 Rectangle 54 2-13 Polygon 55 2-14 Point 56 2-15 Text 57 2-16 Move 62 2-17 Copy 63 2-18 Offset 64 2-19 Mirror 65 2-20 Array 65 2-21 Rotate 68 2-22 Trim 69 2-23 Extend 70 2-24 Break 71 2-25 Chamfer 72 2-26 Fillet 73 2-27 Table 74 2-28 Exercise Problems 78 Chapter 3 Advanced Commands 89 3-1 Introduction 89 3-2 Object Snap 89 3-3 Osnap--Endpoint 92 3-4 Osnap--Midpoint 93 3-5 Osnap--Intersection 93 3-6 Osnap--Apparent Intersection 94 3-7 Osnap--Center 95 3-8 Osnap--Quadrant 96 3-9 Osnap--Perpendicular 96 3-10 Osnap--Tangent 97 3-11 Osnap--Nearest 97 3-12 Drawing Problem 98 3-13 Drawing Problem 100 3-14 Grips 101 3-15 Grips--Extend 103 3-16 Grips--Move 104 3-17 Grips--Rotate 104 3-18 Grips--Scale 105 3-19 Grips--Mirror 106 3-20 Blocks 106 3-21 Working with Blocks 110 3-22 Wblock 115 3-23 Layers 117 3-24 Attributes 126 3-25 Title Blocks with Attributes 132 3-26 Edit Polyline 135 3-27 Edit Spline 136 3-28 Edit Text 137 3-29 Constructing the Bisector of an Angle, Method I 138 3-30 Constructing the Bisector of an Angle, Method II 138 3-31 Constructing an Ogee Curve (S-Curve) with Equal Arcs 139 3-32 Constructing a Parabola 141 3-33 Constructing a Hyperbola 141 3-34 Constructing a Spiral 143 3-35 Constructing a Helix 143 3-36 Designing by Using Shape Parameters 145 3-37 Exercise Problems 149 Chapter 4 Sketching 169 4-1 Introduction 169 4-2 Establishing Your Own Style 169 4-3 Graph Paper 170 4-4 Pencils 170 4-5 Lines 171 4-6 Proportions 172 4-7 Curves 173 4-8 Drawing Problem 175 4-9 Isometric Sketches 176 4-10 Drawing Problem 179 4-11 Oblique Sketches 180 4-12 Perspective Sketches 182 4-13 Working in Different Orientations 184 4-14 Exercise Problems 185 Chapter 5 Orthographic Views 199 5-1 Introduction 199 5-2 Three Views of an Object 200 5-3 Visualization 201 5-4 Hidden Lines 203 5-5 Hidden Line Conventions 204 5-6 Drawing Hidden Lines 205 5-7 Precedence of Lines 209 5-8 Slanted Surfaces 210 5-9 Projection Between Views 211 5-10 Drawing Problem 212 5-11 Compound Lines 213 5-12 Drawing Problem 214 5-13 Oblique Surfaces 215 5-14 Drawing Problem 217 5-15 Rounded Surfaces 217 5-16 Drawing Problem 219 5-17 Holes 220 5-18 Holes in Slanted Surfaces 222 5-19 Cylinders 226 5-20 Drawing Problem 227 5-21 Cylinders with Slanted and Rounded Surfaces 228 5-22 Drawing Problem 228 5-23 Drawing Conventions and Cylinders 229 5-24 Irregular Surfaces 230 5-25 Drawing Problem 231 5-26 Hole Callouts 232 5-27 Castings 234 5-28 Drawing Problem 237 5-29 Thin-Walled Objects 238 5-30 Drawing Problem 239 5-31 Intersections 240 5-32 Drawing Problem 241 5-33 Drawing Problem 242 5-34 Drawing Problem 243 5-35 Designing by Modifying an Existing Part 245 5-36 Drawing Standards 247 5-37 Third- and First-Angle Projections 249 5-38 Exercise Problems 251 Chapter 6 Sectional Views 285 6-1 Introduction 285 6-2 Cutting Plane Lines 287 6-3 Indicating Solid Cuts 290 6-4 Hatch 292 6-5 Drawing Problem 295 6-6 Styles of Section Lines 296 6-7 Sectional View Location 296 6-8 Holes in Sections 297 6-9 Gradients 298 6-10 Offset Sections 299 6-11 Multiple Sections 300 6-12 Aligned Sections 300 6-13 Drawing Conventions in Sections 301 6-14 Half, Partial, and Broken-Out Sectional Views 302 6-15 Removed Sectional Views 303 6-16 Breaks 303 6-17 Sectional Views of Castings 305 6-18 Exercise Problems 306 Chapter 7 Auxiliary Views 327 7-1 Introduction 327 7-2 Projection Between Normal and Auxiliary Views 328 7-3 Drawing Problem 331 7-4 Transferring Lines Between Views 332 7-5 Drawing Problem 334 7-6 Projecting Rounded Surfaces 335 7-7 Drawing Problem 335 7-8 Projecting Irregular Surfaces 337 7-9 Drawing Problem 337 7-10 Drawing Problem 339 7-11 Partial Auxiliary Views 340 7-12 Sectional Auxiliary Views 341 7-13 Auxiliary Views of Oblique Surfaces 342 7-14 Secondary Auxiliary Views 343 7-15 Drawing Problem 346 7-16 Secondary Auxiliary View of an Ellipse 348 7-17 Exercise Problems 350 Chapter 8 Dimensioning 367 8-1 Introduction 367 8-2 Terminology and Conventions 368 8-3 Linear Dimensions 370 8-4 Dimension Styles 376 8-5 Units 380 8-6 Aligned Dimensions 384 8-7 Radius and Diameter Dimensions 385 8-8 Angular Dimensions 391 8-9 Ordinate Dimensions 393 8-10 Baseline Dimensions 396 8-11 Continued Dimensions 398 8-12 Quick Dimension 399 8-13 Center Mark 400 8-14 Mleader and Qleader 401 8-15 Text Angle 404 8-16 Tolerances 405 8-17 Dimensioning Holes 406 8-18 Placing Dimensions 408 8-19 Fillets and Rounds 409 8-20 Rounded Shapes--Internal 409 8-21 Rounded Shapes--External 410 8-22 Irregular Surfaces 410 8-23 Polar Dimensions 411 8-24 Chamfers 412 8-25 Knurling 413 8-26 Keys and Keyseats 414 8-27 Symbols and Abbreviations 414 8-28 Symmetry and Centerline 415 8-29 Dimensioning to Points 415 8-30 Coordinate Dimensions 416 8-31 Sectional Views 417 8-32 Orthographic Views 417 8-33 Very Large Radii 419 8-34 Exercise Problems 420 Chapter 9 Tolerancing 441 9-1 Introduction 441 9-2 Direct Tolerance Methods 441 9-3 Tolerance Expressions 442 9-4 Understanding Plus and Minus Tolerances 443 9-5 Creating Plus and Minus Tolerances with AutoCAD 443 9-6 Limit Tolerances 446 9-7 Creating Limit Tolerances in AutoCAD 447 9-8 Angular Tolerances 448 9-9 Standard Tolerances 450 9-10 Double Dimensioning 450 9-11 Chain Dimensions and Baseline Dimensions 451 9-12 Tolerance Studies 453 9-13 Rectangular Dimensions 454 9-14 Hole Locations 455 9-15 Choosing a Shaft for a Toleranced Hole 456 9-16 Drawing Problem 457 9-17 Drawing Problem 458 9-18 Standard Fits (Metric Values) 458 9-19 Nominal Sizes 461 9-20 Hole and Shaft Basis 461 9-21 Drawing Problem 461 9-22 Standard Fits (Inch Values) 462 9-23 Drawing Problem 463 9-24 Preferred and Standard Sizes 463 9-25 Surface Finishes 465 9-26 Surface Control Symbols 467 9-27 Drawing Problem 467 9-28 Exercise Problems 472 Chapter 10 Geometric Tolerances 487 10-1 Introduction 487 10-2 Tolerances of Form 488 10-3 Flatness 488 10-4 Straightness 489 10-5 Straightness (RFS and MMC) 489 10-6 Circularity 492 10-7 Cylindricity 493 10-8 Creating Geometric Tolerances in AutoCAD 493 10-9 Tolerances of Orientation 500 10-10 Datums 501 10-11 Perpendicularity 502 10-12 Parallelism 504 10-13 Angularism 504 10-14 Profiles 505 10-15 Runouts 506 10-16 Positional Tolerances 508 10-17 Virtual Condition 509 10-18 Floating Fasteners 510 10-19 Drawing Problem 511 10-20 Drawing Problem 511 10-21 Fixed Fasteners 512 10-22 Drawing Problem 513 10-23 Design Problems 514 10-24 Exercise Problems 516 Chapter 11 Threads and Fasteners 535 11-1 Introduction 535 11-2 Thread Terminology 535 11-3 Thread Callouts--Metric Units 536 11-4 Thread Callouts--English Units 536 11-5 Thread Representations 538 11-6 Orthographic Views of Internal Threads 542 11-7 Sectional Views of Internal Thread Representations 544 11-8 Types of Threads 544 11-9 How to Draw an External Square Thread 545 11-10 How to Draw an Internal Square Thread 546 11-11 How to Draw an External Acme Thread 546 11-12 Bolts and Nuts 548 11-13 Screws 549 11-14 Studs 550 11-15 Head Shapes 550 11-16 Nuts 554 11-17 Drawing Problem 557 11-18 Drawing Problem 558 11-19 Standard Screws 559 11-20 Set screws 560 11-21 Washers 561 11-22 Keys 562 11-23 Rivets 563 11-24 Springs 564 11-25 Tool Palettes 567 11-26 Exercise Problems 569 Chapter 12 Working Drawings 579 12-1 Introduction 579 12-2 Assembly Drawings 579 12-3 Drawing Formats (Templates) 582 12-4 Title Block 584 12-5 Revision Block 586 12-6 Tolerance Block 588 12-7 Release Block 588 12-8 Parts List (Bill of Materials [BOM]) 589 12-9 Detail Drawings 591 12-10 First-Angle Projection 591 12-11 Drawing Notes 592 12-12 Design Layouts 593 12-13 Drawing Problem 593 12-14 Drawing Problem 598 12-15 Drawing Problem 601 12-16 Exercise Problems 603 Chapter 13 Gears, Bearings, and Cams 625 13-1 Introduction 625 13-2 Types of Gears 625 13-3 Gear Terminology--Spur 626 13-4 Spur Gear Drawings 628 13-5 Drawing Problem 629 13-6 Drawing Problem 631 13-7 Drawing Problem 632 13-8 Selecting Spur Gears 633 13-9 Center Distance Between Gears 635 13-10 Drawing Problem 635 13-11 Combining Spur Gears 636 13-12 Gear Terminology--Bevel 637 13-13 How to Draw Bevel Gears 639 13-14 Worm Gears 641 13-15 Helical Gears 643 13-16 Racks 644 13-17 Ball Bearings 645 13-18 Drawing Problem 646 13-19 Bushings 647 13-20 Drawing Problem 648 13-21 Cam Displacement Diagrams 650 13-22 Cam Motions 652 13-23 Cam Followers 655 13-24 Drawing Problem 655 13-25 Exercise Problems 658 Chapter 14 Fundamentals of 3D Modeling 669 14-1 Introduction 669 14-2 The World Coordinate System 669 14-3 Viewpoints 672 14-4 Perspective and Parallel Grids 673 14-5 Setting the 3D Modeling Workspace 676 14-6 User Coordinate Systems 677 14-7 Editing a Solid Model 682 14-8 Visual Styles 683 14-9 Rotating a UCS Axis 685 14-10 Drawing Problem 686 14-11 Visual Errors 688 14-12 Drawing Problem 688 14-13 Orthographic Views 690 14-14 Line Thickness 693 14-15 Using the Thickness Variable to 14-16 Exercise Problems 699 Chapter 15 Advanced Modeling 705 15-1 Introduction 705 15-2 Box 706 15-3 Sphere 709 15-4 Cylinder 709 15-5 Cone 711 15-6 Wedge 713 15-7 Torus 715 15-8 Extrude 716 15-9 Revolve 718 15-10 Helix 719 15-11 Sweep 720 15-12 Loft 721 15-13 Union and Subtract 722 15-14 Intersect 724 15-15 Solid Modeling and UCSs 725 15-16 Combining Solid Objects 727 15-17 Intersecting Solids 732 15-18 Solid Models of Castings 737 15-19 Thread Representations in Solid Models 742 15-20 List 743 15-21 Massprop 744 15-22 Face and Edge Editing 744 15-23 Exercise Problems 752 Chapter 16 Projects (Online Only) 16-1 Introduction 16-2 Project 1: Milling Vise 16-3 Project 2: Tenon Jig Appendix (Online Only) 9780137929993   TOC   7/26/2022

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Author Information

James D. Bethune taught drafting and Computer Aided-Design (CAD) for 39 years, twice winning the Outstanding Professor of the year award. He has a doctor's degree in education from Boston University and has written more than 28 books on drafting and CAD. While retired from full-time teaching, Jim continues to write textbooks on CAD. An avid golfer, Jim lives in East Greenwich, Rhode Island. David Byrnes recently retired from a 38-year career of design, drafting, and 3D modeling. He has written and co-authored several books on AutoCAD. He was a contributing editor to Cadalyst Magazine (1990-2005), as well as the Canadian magazines CAD Systems and AutoCAD User. He taught 2D and 3D design software at Emily Carr University of Art + Design in Vancouver, British Columbia, for 15 years. He also taught at British Columbia Institute of Technology and the University of British Columbia during this time.

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