Engineering Design and Graphics with SolidWorks 2023
Autor Jim Bethune, Nathan Brownen Limba Engleză Paperback – 6 apr 2024
In Engineering Design and Graphics with SolidWorks 2023, award-winning CAD instructor and author James Bethune shows students how to use SolidWorks to create engineering drawings and designs. The textbook has been updated to cover the new features in SolidWorks 2023. It focuses on the creation of engineering drawings, including dimensions and tolerances and the use of standard parts and tools. Each chapter contains step-by-step sample problems that show students how to apply the concepts presented in the chapter.
Effective pedagogy throughout the text helps students learn and retain concepts:
- Objectives: Each chapter begins with objectives and an introduction to the material.
- Summaries: Each chapter concludes with a summary and exercise problems.
- Numerous Illustrations: The multitude of illustrations, accompanied by explanatory captions, present a visual approach to learning. Students see in the text what they see on the screen with the addition of explanatory text.
- Practical Application: The text provides hundreds of exercise projects of varying difficulty (far more than any other computer graphics text). These exercises reinforce each chapters content and help students learn by doing.
- Flexibility: With the hundreds of problems presented in the book, instructors can assign different problems within the same class and from year to year without repeating problems for students.
- Meets Standards: The text teaches ANSI standards for dimensions and tolerances. This helps students understand how their designs are defined for production and the importance of proper tolerancing.
- Step-by-Step Approach: In presenting the fundamentals of engineering drawing using SolidWorks, the text uses a step-by-step approach that allows students to work and learn at their own pace
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Specificații
ISBN-13: 9780137899524
ISBN-10: 0137899521
Pagini: 784
Dimensiuni: 276 x 216 x 36 mm
Greutate: 1.62 kg
Editura: Pearson Education (US)
ISBN-10: 0137899521
Pagini: 784
Dimensiuni: 276 x 216 x 36 mm
Greutate: 1.62 kg
Editura: Pearson Education (US)
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Cuprins
Preface Chapter 1 Getting Started Chapter Objectives 1-1 Introduction 1-2 Starting a New Document 1-3 SolidWorks Colors 1-4 Creating a Fully Defined Circle 1-5 Units 1-6 Rectangle 1-7 Moving Around the Drawing Screen 1-8 Orientation 1-9 Sample Problem SP1-1 1-10 Creating 3D Models 1-11 Saving Documents 1-12 Sample Problem SP1-2 1-13 Holes Chapter Project Chapter 2 Sketch Entities and Tools Chapter Objectives 2-1 Introduction 2-2 Mouse Gestures and the S Key 2-3 Origins 2-4 Circle 2-5 Rectangle 2-6 Slots 2-7 Perimeter Circle 2-8 Arcs 2-9 Polygons 2-10 Spline 2-11 Ellipse 2-12 Fillets and Chamfers 2-13 Sketch Text 2-14 Point 2-15 Trim Entities 2-16 Extend Entities 2-17 Offset Entities 2-18 Mirror Entities 2-19 Linear Sketch Pattern 2-20 Circular Sketch Pattern 2-21 Move Entities 2-22 Copy Entities 2-23 Rotate Entities 2-24 Scale Entities 2-25 Stretch Entities 2-26 Split Entities 2-27 Jog Lines 2-28 Centerline 2-29 Sample Problem SP2-1 2-30 Sample Problem SP2-2 2-31 Sample Problem SP2-3 Chapter Projects Chapter 3 Features Chapter Objectives 3-1 Introduction 3-2 Extruded Boss/Base 3-3 Sample Problem SP3-1 3-4 Extruded Cut 3-5 Hole Wizard 3-6 Creating a Hole with the Circle and Extruded Cut Tools 3-7 Blind Holes 3-8 Fillet 3-9 Chamfer 3-10 Revolved Boss/Base 3-11 Revolved Cut 3-12 Reference Planes 3-13 Lofted Boss/Base 3-14 Shell 3-15 Swept Boss/Base 3-16 Draft 3-17 Linear Sketch Pattern 3-18 Circular Sketch Pattern 3-19 Mirror 3-20 Helix Curves and Springs 3-21 Compression Springs 3-22 Torsional Springs 3-23 Extension Springs 3-24 Wrap 3-25 Editing Features 3-26 Sample Problem SP3-2 3-27 Sample Problem SP3-3 3-28 Curve Driven Patterns Chapter Projects Chapter 4 Orthographic Views Chapter Objectives 4-1 Introduction 4-2 Third- and First-Angle Projections 4-3 Fundamentals of Orthographic Views 4-4 Drawing Orthographic Views 4-5 Section Views 4-6 Drawing a Section View 4-7 Aligned Section Views 4-8 Broken Views 4-9 Detail Views 4-10 Auxiliary Views 4-11 First-Angle Projection Chapter Projects Chapter 5 Assemblies Chapter Objectives 5-1 Introduction 5-2 Starting an Assembly 5-3 Move Component 5-4 Rotate Component 5-5 Mouse Gestures for Assemblies 5-6 Mate 5-7 Bottom-up Assemblies 5-8 Creating an Exploded Isometric Assembly 5-9 Creating an Exploded Isometric Drawing 5-10 Assembly Numbers 5-11 Bill of Materials (BOM or Parts List) 5-12 Title Blocks 5-13 Animate Collapse 5-14 Sample Problem SP5-1 5-15 Using the Motion Study Tool 5-16 Editing a Part Within an Assembly 5-17 Interference Detection/ClearanceVerification Chapter Projects Chapter 6 Threads and Fasteners Chapter Objectives 6-1 Introduction 6-2 Thread Terminology 6-3 Thread CalloutsANSI Metric Units 6-4 Thread CalloutsANSI Unified Screw Threads 6-5 Thread Representations 6-6 Internal ThreadsInches 6-7 Threaded Blind HolesInches 6-8 Internal ThreadsMetric 6-9 Accessing the Design Library 6-10 Thread Pitch 6-11 Determining an External ThreadLengthInches 6-12 Smart Fasteners 6-13 Determining an Internal Thread Length 6-14 Set Screws 6-15 Drawing a Threaded Hole in the Sideof a Cylinder 6-16 Adding Set Screws to the Collar Chapter Projects Chapter 7 Dimensioning Chapter Objectives 7-1 Introduction 7-2 Terminology and ConventionsANSI 7-3 Adding Dimensions to a Drawing 7-4 Drawing Scale 7-5 Units 7-6 Dimensioning Holes and Fillets 7-7 Dimensioning Counterbored and Countersunk Holes 7-8 Angular Dimensions 7-9 Ordinate Dimensions 7-10 Baseline Dimensions 7-11 Locating Dimensions 7-12 Fillets and Rounds 7-13 Rounded ShapesInternal 7-14 Rounded ShapesExternal 7-15 Irregular Surfaces 7-16 Polar Dimensions 7-17 Chamfers 7-18 Symbols and Abbreviations 7-19 Symmetrical and Centerline Symbols 7-20 Dimensioning to a Point 7-21 Dimensioning Section Views 7-22 Dimensioning Orthographic Views Chapter Projects Chapter 8 Tolerancing Chapter Objectives 8-1 Introduction 8-2 Direct Tolerance Methods 8-3 Tolerance Expressions 8-4 Understanding Plus and Minus Tolerances 8-5 Creating Plus and Minus Tolerances Adding Plus and Minus Symmetric Tolerances Using the Dimension Text Box 8-6 Creating Limit Tolerances 8-7 Creating Angular Tolerances 8-8 Standard Tolerances 8-9 Double-Dimensioning Errors 8-10 Chain Dimensions and Baseline Dimensions 8-11 Tolerance Studies 8-12 Rectangular Dimensions 8-13 Hole Locations 8-14 Choosing a Shaft for a Toleranced Hole 8-15 Sample Problem SP8-1 8-16 Sample Problem SP8-2 8-17 Nominal Sizes 8-18 Standard Fits (Metric Values) 8-19 Standard Fits (Inch Values) 8-20 Preferred and Standard Sizes 8-21 Surface Finishes 8-22 Surface Control Symbols 8-23 Applying Surface Control Symbols 8-24 Design Problems 8-25 Geometric Tolerances 8-26 Tolerances of Form 8-27 Flatness 8-28 Straightness 8-29 Straightness (RFS and MMC) 8-30 Circularity 8-31 Cylindricity 8-32 Geometric Tolerances Using SolidWorks 8-33 Datums 8-34 Tolerances of Orientation 8-35 Perpendicularity 8-36 Parallelism 8-37 Angularity 8-38 Profiles 8-39 Runouts 8-40 Positional Tolerances 8-41 Creating Positional Tolerances 8-42 Virtual Condition 8-43 Floating Fasteners 8-44 Sample Problem SP8-3 8-45 Sample Problem SP8-4 8-46 Fixed Fasteners 8-47 Sample Problem SP8-5 8-48 Design Problems Chapter Projects Chapter 9 Bearings and Fit Tolerances Chapter Objectives 9-1 Introduction 9-2 Sleeve Bearings 9-3 Bearings from the Toolbox 9-4 Ball Bearings 9-5 Fits and Tolerances for Bearings 9-6 FitsInches 9-7 Clearance Fits 9-8 Hole Basis 9-9 Shaft Basis 9-10 Sample Problem SP9-1 9-11 Interference Fits 9-12 Manufactured Bearings 9-13 Fit TolerancesMillimeters Chapter Projects Chapter 10 Gears Chapter Objectives 10-1 Introduction 10-2 Gear Terminology 10-3 Gear Formulas 10-4 Creating Gears 10-5 Gear Ratios 10-6 Gears and Bearings 10-7 Power TransmissionShaft to Gear 10-8 Set Screws and Gear Hubs 10-9 Keys, Keyseats, and Gears 10-10 Sample Problem SP10-1 10-11 Rack and Pinion Gears 10-12 Metric Gears Chapter Projects Chapter 11 CSWA Preparation Chapter Objectives 11-1 Introduction 11-2 Working with Cubes 11-3 Drawing Profiles 11-4 Drawing Small 3D Objects 11-5 Drawing Larger Objects 11-6 Drawing Auxiliary Views 11-7 Drawing Break Views 11-8 Drawing Section Views 11-9 Drawing Detail Views 11-10 Drawing Lines and Views 11-11 Creating Assemblies 11-12 Problem Answers Appendix 9780137899524 TOC 2/2/2023
Notă biografică
James (Jim) 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 21 books on drafting and CAD. While retired from full-time teaching, Jim continues to teach courses and write textbooks on CAD. An avid golfer, Jim lives in East Greenwich, Rhode Island.
Nathan Brown is an instructor in the Department of Bioengineering with a B.S., M.Eng., and PhD in Mechanical Engineering from the University of Louisville. He is a certified SolidWorks Associate. He has also taught biomechanical modeling and simulation of human movement and published peer reviewed articles in scientific journals. He has worked as the co-author for the 2nd edition of Pearson's Mastering SolidWorks. He is currently an analytics professional at a major health insurance company, has obtained a Data Science Certificate from the University of Louisville, and is pursuing a Masters in Computer Science and Engineering.
Nathan Brown is an instructor in the Department of Bioengineering with a B.S., M.Eng., and PhD in Mechanical Engineering from the University of Louisville. He is a certified SolidWorks Associate. He has also taught biomechanical modeling and simulation of human movement and published peer reviewed articles in scientific journals. He has worked as the co-author for the 2nd edition of Pearson's Mastering SolidWorks. He is currently an analytics professional at a major health insurance company, has obtained a Data Science Certificate from the University of Louisville, and is pursuing a Masters in Computer Science and Engineering.