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E-raamat: Engineering Design and Graphics with SolidWorks 2023

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  • Keel: eng
  • ISBN-13: 9780137899470
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Engineering Design and Graphics with SolidWorks 2023Suurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 03-Mar-2023
  • Kirjastus: Peachpit Press Publications
  • Keel: eng
  • ISBN-13: 9780137899470
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Engineering Design and Graphics with SolidWorks 2023

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 chapter’s 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

 

Preface v
Chapter 1 Getting Started
1(42)
Chapter Objectives
1(1)
1-1 Introduction
1(1)
1-2 Starting a New Document
2(6)
Starting a New Part Document
2(1)
Selecting a Sketch Plane
3(5)
1-3 SolidWorks Colors
8(1)
1-4 Creating a Fully Defined Circle
8(6)
Changing an Existing Dimension
10(1)
Fully Defined Entities
11(3)
1-5 Units
14(1)
Changing Units
15(1)
1-6 Rectangle
15(3)
Sketching a Rectangle
15(2)
Exiting the Sketch Mode
17(1)
Reentering the Sketch Mode
17(1)
1-7 Moving Around the Drawing Screen
18(1)
Zooming the Rectangle
19(1)
Moving the Rectangle
19(1)
Reorientating the Rectangle
19(1)
1-8 Orientation
19(1)
Returning to the Top View Orientation---View Selector
19(1)
Returning to the Top View Orientation---Top View
20(1)
Returning to the Top View Orientation---Orientation Triad
20(1)
1-9 Sample Problem SP1-1
20(5)
Fixing a Line in Place
23(1)
Sketch Relations
24(1)
1-10 Creating 3D Models
25(2)
Creating a 3D Model
25(2)
1-11 Saving Documents
27(1)
Saving a Document
27(1)
1-12 Sample Problem SP1-2
28(4)
1-13 Holes
32(11)
Creating a Hole
32(5)
Chapter Project
37(6)
Chapter 2 Sketch Entities and Tools
43(86)
Chapter Objectives
43(1)
2-1 Introduction
43(1)
2-2 Mouse Gestures and the S Key
44(7)
Mouse Gestures
44(1)
Using Mouse Gestures
44(1)
Accessing Mouse Gestures Settings
45(1)
Adding a Tool to a Mouse Gestures Wheel
46(1)
S Key
47(1)
Activating the S Key
48(1)
Customizing the S Key Shortcut Toolbar
49(2)
Removing a Tool from the S Key Toolbar
51(1)
2-3 Origins
51(1)
Showing the Origin
51(1)
2-4 Circle
52(4)
Sketching a Circle
52(2)
Sketching a Perimeter Circle Using Three Points
54(1)
Sketching a Perimeter Circle Tangent to Three Lines
55(1)
2-5 Rectangle
56(5)
Sketching a Center Rectangle
56(1)
Sketching a 3 Point Corner Rectangle
57(1)
Sketching a 3 Point Center Rectangle
58(1)
Sketching a Parallelogram
59(2)
2-6 Slots
61(5)
Sketching a Straight Slot
62(1)
Sketching a Centerpoint Straight Slot
63(1)
Sketching a 3 Point Arc Slot
64(1)
Sketching a Centerpoint Arc Slot
65(1)
2-7 Perimeter Circle
66(1)
Sketching a Perimeter Circle
66(1)
2-8 Arcs
67(3)
Sketching a Centerpoint Arc
67(1)
Sketching a Tangent Arc
68(1)
Sketching a 3 Point Arc
69(1)
2-9 Polygons
70(2)
Sketching a Hexagon
70(2)
2-10 Spline
72(1)
Sketching a Spline
72(1)
Editing a Spline
73(1)
2-11 Ellipse
73(7)
Sketching an Ellipse
74(1)
Sketching a Partial Ellipse
75(1)
Sketching a Parabola
76(1)
Conic Section
77(2)
Sketching a Conic
79(1)
2-12 Fillets and Chamfers
80(4)
Sketching a Fillet
81(1)
Sketching a Chamfer
82(1)
Sketching a Chamfer Using Distance-Distance---Equal Distance
82(1)
Sketching a Chamfer Using Angle-Distance
83(1)
Sketching a Chamfer Using Distance-Distance---Not Equal Distance
84(1)
2-13 Sketch Text
84(3)
Adding Text
85(1)
Changing the Font and Size of Text
85(1)
Adding Text to a Feature
86(1)
Creating Text that Wraps Around Two Features
87(1)
2-14 Point
87(1)
2-15 Trim Entities
88(1)
Trimming Entities
88(1)
2-16 Extend Entities
89(1)
Extending Entities in a Sketch
89(1)
2-17 Offset Entities
90(2)
Sketching an Offset Line
91(1)
2-18 Mirror Entities
92(3)
Creating a Mirror Entity
92(3)
2-19 Linear Sketch Pattern
95(2)
Creating a Linear Sketch Pattern
97(1)
2-20 Circular Sketch Pattern
97(2)
Creating a Circular Sketch Pattern
98(1)
2-21 Move Entities
99(1)
Moving an Entity
100(1)
2-22 Copy Entities
100(2)
Copying an Entity
102(1)
2-23 Rotate Entities
102(1)
Rotating an Entity
103(1)
2-24 Scale Entities
103(1)
Scaling an Entity
103(1)
2-25 Stretch Entities
104(2)
Stretching an Entity
105(1)
2-26 Split Entities
106(3)
Splitting an Entity
106(3)
2-27 Jog Lines
109(1)
Using the Jog Line Tool
110(1)
2-28 Centerline
110(1)
Using the Centerline Tool
111(1)
2-29 Sample Problem SP2-1
111(3)
2-30 Sample Problem SP2-2
114(2)
2-31 Sample Problem SP2-3
116(13)
Chapter Projects
119(10)
Chapter 3 Features
129(100)
Chapter Objectives
129(1)
3-1 Introduction
129(1)
3-2 Extruded Boss/Base
129(5)
Using the Extruded Boss/Base Tool
130(2)
Creating Inward Draft Sides
132(1)
Creating an Outward Draft
133(1)
3-3 Sample Problem SP3-1
134(3)
3-4 Extruded Cut
137(1)
3-5 Hole Wizard
138(3)
3-6 Creating a Hole with the Circle and Extruded Cut Tools
141(2)
3-7 Blind Holes
143(3)
Creating a Blind Hole---Inches
143(2)
Creating a Blind Hole---Metric
145(1)
3-8 Fillet
146(7)
Creating a Fillet with a Variable Radius
148(2)
Creating a Fillet Using the Face Fillet Option
150(1)
Creating a Fillet Using the Full Round Fillet Option
151(2)
3-9 Chamfer
153(3)
Defining a Chamfer Using an Angle and a Distance
153(1)
Defining a Chamfer Using Two Distances
154(1)
Defining a Vertex Chamfer
155(1)
3-10 Revolved Boss/Base
156(3)
3-11 Revolved Cut
159(1)
3-12 Reference Planes
160(5)
Creating a Reference Plane
161(4)
3-13 Lofted Boss/Base
165(3)
3-14 Shell
168(2)
3-15 Swept Boss/Base
170(2)
3-16 Draft
172(2)
3-17 Linear Sketch Pattern
174(2)
3-18 Circular Sketch Pattern
176(1)
3-19 Mirror
177(2)
3-20 Helix Curves and Springs
179(2)
Drawing a Helix
179(1)
Drawing a Spring From the Given Helix
180(1)
3-21 Compression Springs
181(3)
Creating Ground Ends
183(1)
3-22 Torsional Springs
184(3)
Drawing a Torsional Spring
184(3)
3-23 Extension Springs
187(4)
Drawing an Extension Spring
188(3)
3-24 Wrap
191(4)
Creating Debossed Text
191(4)
3-25 Editing Features
195(2)
Editing the Hole
195(1)
Editing the Cutout
196(1)
3-26 Sample Problem SP3-2
197(8)
Drawing a Cylinder
198(2)
Creating a Slanted Surface on the Cylinder
200(1)
Adding the Vertical Slot
201(2)
Adding the 08 Hole
203(2)
3-27 Sample Problem SP3-3
205(3)
3-28 Curve Driven Patterns
208(21)
Using the Curve Driven Pattern Tool---Example 1
208(3)
Using the Curve Driven Pattern Tool---Example 2
211(3)
Chapter Projects
214(15)
Chapter 4 Orthographic Views
229(76)
Chapter Objectives
229(1)
4-1 Introduction
229(2)
4-2 Third- and First-Angle Projections
231(1)
4-3 Fundamentals of Orthographic Views
232(8)
Normal Surfaces
233(1)
Hidden Lines
234(1)
Precedence of Lines
235(1)
Slanted Surfaces
236(1)
Compound Lines
237(1)
Oblique Surfaces
238(1)
Rounded Surfaces
238(2)
4-4 Drawing Orthographic Views
240(10)
Moving Orthographic Views
249(1)
Creating Other Views
249(1)
4-5 Section Views
250(2)
4-6 Drawing a Section View
252(6)
Changing the Style of a Section View
257(1)
4-7 Aligned Section Views
258(1)
4-8 Broken Views
259(2)
Creating a Broken View
260(1)
4-9 Detail Views
261(1)
Drawing a Detail View
261(1)
4-10 Auxiliary Views
262(4)
Drawing an Auxiliary View
263(3)
4-11 First-Angle Projection
266(39)
Creating Three Orthographic Views Using First-Angle Projection
266(3)
Chapter Projects
269(36)
Chapter 5 Assemblies
305(76)
Chapter Objectives
305(1)
5-1 Introduction
305(1)
5-2 Starting an Assembly
305(3)
5-3 Move Component
308(1)
5-4 Rotate Component
309(1)
5-5 Mouse Gestures for Assemblies
310(1)
5-6 Mate
311(5)
Creating the First Assembly Using Mates
311(2)
Creating a Second Assembly
313(2)
Creating a Third Assembly
315(1)
5-7 Bottom-up Assemblies
316(5)
5-8 Creating an Exploded Isometric Assembly
321(3)
5-9 Creating an Exploded Isometric Drawing
324(2)
5-10 Assembly Numbers
326(2)
5-11 Bill of Materials (BOM or Parts List)
328(7)
Editing the BOM
330(2)
Adding Columns to the BOM
332(1)
Changing the Width of a Column
333(1)
Changing the Width of Rows and Columns
334(1)
Changing the BOM's Font
334(1)
5-12 Title Blocks
335(4)
Revision Letters
336(1)
Editing a Title Block
336(2)
Release Blocks
338(1)
Tolerance Blocks
339(1)
Application Blocks
339(1)
5-13 Animate Collapse
339(2)
5-14 Sample Problem SP5-1
341(3)
5-15 Using the Motion Study Tool
344(3)
Viewing the Assembly Motion
346(1)
5-16 Editing a Part Within an Assembly
347(2)
5-17 Interference Detection/Clearance Verification
349(32)
Interference Detection
349(1)
Detecting an Interference
350(3)
Verifying the Clearance
353(1)
Removing the Interference
353(2)
Verifying that a Clearance Exists
355(2)
Chapter Projects
357(24)
Chapter 6 Threads and Fasteners
381(66)
Chapter Objectives
381(1)
6-1 Introduction
381(1)
6-2 Thread Terminology
381(1)
Pitch
382(1)
6-3 Thread Callouts---ANSI Metric Units
382(1)
6-4 Thread Callouts---ANSI Unified Screw Threads
383(1)
6-5 Thread Representations
384(1)
6-6 Internal Threads---Inches
384(3)
6-7 Threaded Blind Holes---Inches
387(1)
6-8 Internal Threads---Metric
388(2)
6-9 Accessing the Design Library
390(2)
6-10 Thread Pitch
392(1)
6-11 Determining an External Thread Length---Inches
392(6)
6-12 Smart Fasteners
398(3)
6-13 Determining an Internal Thread Length
401(3)
6-14 Set Screws
404(1)
6-15 Drawing a Threaded Hole in the Side of a Cylinder
405(4)
6-16 Adding Set Screws to the Collar
409(38)
Chapter Projects
411(36)
Chapter 7 Dimensioning
447(72)
Chapter Objectives
447(1)
7-1 Introduction
447(1)
7-2 Terminology and Conventions---ANSI
448(2)
Common Terms
448(1)
Dimensioning Conventions
449(1)
Common Errors to Avoid
449(1)
7-3 Adding Dimensions to a Drawing
450(10)
Controlling Dimensions
454(1)
Dimensioning Short Distances
455(2)
Autodimension Tool
457(2)
Creating Baseline Dimensions
459(1)
Creating Ordinate Dimensions
460(1)
7-4 Drawing Scale
460(1)
7-5 Units
461(5)
Aligned Dimensions
462(1)
Hole Dimensions
462(4)
7-6 Dimensioning Holes and Fillets
466(3)
Dimensioning a Blind Hole
466(2)
Dimensioning Hole Patterns
468(1)
7-7 Dimensioning Counterbored and
Countersunk Holes
469(4)
Counterbored Hole with Threads
473(6)
Dimensioning Countersink Holes
479(1)
Dimensioning the Block
480(1)
7-8 Angular Dimensions
480(5)
Dimensioning an Evenly Spaced Hole Pattern
484(1)
7-9 Ordinate Dimensions
485(3)
Creating Ordinate Dimensions
486(2)
7-10 Baseline Dimensions
488(4)
Creating Baseline Dimensions
488(2)
Hole Tables
490(2)
7-11 Locating Dimensions
492(1)
7-12 Fillets and Rounds
493(1)
7-13 Rounded Shapes---Internal
493(1)
7-14 Rounded Shapes---External
494(1)
7-15 Irregular Surfaces
495(1)
7-16 Polar Dimensions
496(1)
7-17 Chamfers
497(1)
7-18 Symbols and Abbreviations
498(1)
7-19 Symmetrical and Centerline Symbols
499(1)
7-20 Dimensioning to a Point
500(1)
7-21 Dimensioning Section Views
501(1)
7-22 Dimensioning Orthographic Views
501(18)
Dimensions Using Centerlines
502(1)
Chapter Projects
503(16)
Chapter 8 Tolerancing
519(100)
Chapter Objectives
519(1)
8-1 Introduction
519(1)
8-2 Direct Tolerance Methods
519(2)
8-3 Tolerance Expressions
521(1)
8-4 Understanding Plus and Minus Tolerances
522(1)
8-5 Creating Plus and Minus Tolerances
522(3)
Adding Plus and Minus Symmetric Tolerances Using the Dimension Text Box
524(1)
8-6 Creating Limit Tolerances
525(1)
8-7 Creating Angular Tolerances
526(2)
8-8 Standard Tolerances
528(1)
8-9 Double-Dimensioning Errors
528(2)
8-10 Chain Dimensions and Baseline Dimensions
530(2)
Baseline Dimensions
531(1)
8-11 Tolerance Studies
532(1)
Calculating the Maximum Length of A
532(1)
Calculating the Minimum Length of A
533(1)
8-12 Rectangular Dimensions
533(1)
8-13 Hole Locations
533(2)
8-14 Choosing a Shaft for a Toleranced Hole
535(2)
For Linear Dimensions and Tolerances
536(1)
8-15 Sample Problem SP8-1
537(1)
8-16 Sample Problem SP8-2
538(1)
8-17 Nominal Sizes
538(1)
8-18 Standard Fits (Metric Values)
539(1)
Clearance Fits
539(1)
Transitional Fits
539(1)
Interference Fits
540(1)
8-19 Standard Fits (Inch Values)
540(3)
Adding a Fit Callout to a Drawing
540(2)
Reading Fit Tables
542(1)
8-20 Preferred and Standard Sizes
543(1)
8-21 Surface Finishes
544(1)
8-22 Surface Control Symbols
545(2)
8-23 Applying Surface Control Symbols
547(2)
Adding a Lay Symbol to a Drawing
548(1)
8-24 Design Problems
549(5)
Floating Condition
550(1)
Fixed Condition
551(2)
Designing a Hole Given a Fastener Size
553(1)
8-25 Geometric Tolerances
554(1)
8-26 Tolerances of Form
554(1)
8-27 Flatness
554(1)
8-28 Straightness
555(1)
8-29 Straightness (RFS and MMC)
556(3)
8-30 Circularity
559(1)
8-31 Cylindricity
560(1)
8-32 Geometric Tolerances Using SolidWorks
561(1)
8-33 Datums
561(5)
Adding a Datum Indicator
563(1)
Defining a Perpendicular Tolerance
564(1)
Defining a Straightness Value for Datum Surface A
565(1)
8-34 Tolerances of Orientation
566(1)
8-35 Perpendicularity
566(3)
8-36 Parallelism
569(1)
8-37 Angularity
569(1)
8-38 Profiles
570(2)
8-39 Runouts
572(1)
8-40 Positional Tolerances
573(2)
8-41 Creating Positional Tolerances
575(3)
Creating the Positional Tolerance
575(3)
8-42 Virtual Condition
578(1)
Calculating the Virtual Condition for a Shaft
579(1)
Calculating the Virtual Condition for a Hole
579(1)
8-43 Floating Fasteners
579(2)
8-44 Sample Problem SP8-3
581(1)
8-45 Sample Problem SP8-4
582(1)
8-46 Fixed Fasteners
582(1)
8-47 Sample Problem SP8-5
583(1)
8-48 Design Problems
584(35)
Chapter Projects
588(31)
Chapter 9 Bearings and Fit Tolerances
619(34)
Chapter Objectives
619(1)
9-1 Introduction
619(1)
9-2 Sleeve Bearings
620(3)
Drawing a Sleeve Bearing
620(1)
Using a Sleeve Bearing in an Assembly Drawing
621(2)
9-3 Bearings from the Toolbox
623(3)
9-4 Ball Bearings
626(2)
9-5 Fits and Tolerances for Bearings
628(1)
9-6 Fits---Inches
628(1)
9-7 Clearance Fits
628(1)
9-8 Hole Basis
629(1)
9-9 Shaft Basis
629(1)
9-10 Sample Problem SP9-1
629(1)
9-11 Interference Fits
630(1)
9-12 Manufactured Bearings
631(4)
Clearance for a Manufactured Bearing
632(1)
Applying a Clearance Fit Tolerance
632(1)
Interference for a Manufactured Bearing
633(1)
Applying an Interference Fit Tolerance
633(1)
Applying Standard Fit Tolerances to an Assembly Drawing
634(1)
9-13 Fit Tolerances---Millimeters
635(18)
Chapter Projects
636(17)
Chapter 10 Gears
653(62)
Chapter Objectives
653(1)
10-1 Introduction
653(1)
10-2 Gear Terminology
654(1)
10-3 Gear Formulas
655(1)
10-4 Creating Gears
656(7)
Creating a Gear Assembly
657(4)
Animating the Gears
661(2)
10-5 Gear Ratios
663(1)
10-6 Gears and Bearings
663(3)
Adding Bearings
663(3)
10-7 Power Transmission---Shaft to Gear
666(1)
10-8 Set Screws and Gear Hubs
666(5)
Adding a Threaded Hole to the Gear's Hub
668(3)
10-9 Keys, Keyseats, and Gears
671(10)
Defining and Creating Keyseats in Gears
671(3)
Returning to the Assembly Drawing
674(1)
Defining and Creating a Parallel Key
675(1)
Creating a Keyseat in the Shaft
676(2)
Creating the Keyseat
678(1)
Creating the Arc-Shaped End of a Keyseat
679(2)
10-10 Sample Problem SP10-1
681(6)
Determining the Pitch Diameter
681(2)
Editing-the Bill of Materials
683(4)
10-11 Rack and Pinion Gears
687(3)
Animating the Rack and Pinion
689(1)
10-12 Metric Gears
690(25)
Creating a Metric Gear
690(2)
Chapter Projects
692(23)
Chapter 11 CSWA Preparation
715(36)
Chapter Objectives
715(1)
11-1 Introduction
715(1)
11-2 Working with Cubes
716(1)
Problem 11-1
716(1)
11-3 Drawing Profiles
717(4)
Problem 11-2
717(1)
Problem 11-3
718(1)
Problem 11-4
719(1)
Problem 11-5
719(2)
Problem 11-6
721(1)
11-4 Drawing Small 3D Objects
721(6)
Problem 11-7
722(1)
Problem 11-8
722(1)
Problem 11-9
723(1)
Problem 11-10
724(1)
Problem 11-11
725(1)
Problem 11-12
726(1)
11-5 Drawing Larger Objects
727(8)
Problem 11-13
727(1)
Problem 11-14
728(1)
Problem 11-15
729(1)
Problem 11-16
730(1)
Problem 11-17
731(1)
Problem 11-18
732(1)
Problem 11-19
733(1)
Problem 11-20
734(1)
11-6 Drawing Auxiliary Views
735(2)
Problem 11-21
735(1)
Problem 11-22
736(1)
Problem 11-23
737(1)
11-7 Drawing Break Views
737(2)
Problem 11-24
738(1)
Problem 11-25
738(1)
11-8 Drawing Section Views
739(3)
Problem 11-26
739(1)
Problem 11-27
740(1)
Problem 11-28
741(1)
11-9 Drawing Detail Views
742(2)
Problem 11-29
742(1)
Problem 11-30
743(1)
11-10 Drawing Lines and Views
744(3)
Problem 11-31
744(1)
Problem 11-32
745(1)
Problem 11-33
746(1)
11-11 Creating Assemblies
747(3)
Problem 11-34
747(2)
Problem 11-35
749(1)
11-12 Problem Answers
750(1)
Appendix 751(12)
Index 763
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.
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