Description: Mastering SolidWorks by Ibrahim Zeid Revised and Updated: The Definitive Hands-On Guide to Solid Modeling with SolidWorks 2021 Fully updated for SolidWorks 2021, Mastering SolidWorks, Third Edition, thoroughly illuminates solid modeling CAD techniques for developing parts, assemblies, and drawings. Additional specializations, SolidWorks toolboxes, and manufacturing techniques are also covered, including sheet metal, injection molding, and animation. New illustrations reflect SolidWorks 2021 throughout, and this edition fully reflects changes in workflow since SolidWorks 2014. Mastering SolidWorks can develop CAD skills in students with little or no solid modeling expertise, help more advanced students hone specialized skills, and prepare any SolidWorks user for SolidWorks Associate (CSWA) or Professional (CSWP) certification. Written especially for beginners and intermediate users, it will also be valuable to experienced users requiring specialized knowledge, to companies training their own professionals, and to all schools teaching engineering, design, or 3D modeling. Understand SolidWorks as a powerful design/manufacturing system, not just a piece of softwareLearn key modeling concepts for working efficiently, avoiding errors, and transferring your skills anywhereRapidly create, assemble, document, and visualize partsEmbed "design intelligence" to make parts easier to edit and manufactureMaster part modeling: from basic features, drawings, and assemblies to advanced curves, surfaces, and sustainable designsDevelop and analyze parts using tolerances and SolidWorks analysis toolsManufacture parts with rapid prototyping, numerical control machining, and injection molding FORMAT Paperback LANGUAGE English CONDITION Brand New Author Biography Ibrahim Zeid, Professor of Mechanical, Industrial and Manufacturing Engineering at Northeastern University, is a Fellow of the American Society of Mechanical Engineers. His research focuses on mechanics, personalized medicine, simulation, and complex networks analysis. His honors include Northeasterns Excellence in Teaching Award and SAEs Ralph R. Teetor National Educational Award. Nathan Brown, research engineer and instructor in the Department of Bioengineering at the University of Louisville, teaches SolidWorks, 3D modeling, and manufacturing processes at the graduate level. A Certified SolidWorks Associate, his extensive CAD experience includes developing custom, anatomically accurate pelvic limb 3D computer models to investigate and correct ligament injuries and deficiencies in dogs. Table of Contents Preface vi PART I: COMPUTER-AIDED DESIGN (CAD) BASICS 1 Chapter 1 Getting Started 3 1.1 Introduction 3 1.2 Engineering Design Process 4 1.3 CAD Process 4 1.4 Manufacturing Process 5 1.5 CAM Process 6 1.6 SolidWorks Installation and Resources 6 1.7 SolidWorks Overview 8 1.8 Customize SolidWorks 11 1.9 Modeling Plan 12 1.10 Part Creation 14 1.11 Examples 15 1.12 Tutorials 22 Tutorial 1-1 Create a Flap 22 Tutorial 1-2 Create a Pin and Bushing Bearing 24 Tutorial 1-3 Create a Pillow Block 25 Tutorial 1-4 Create Drawings 28 Tutorial 1-5 Create an Assembly 29 Problems 32 Chapter 2 Modeling Management 37 2.1 Overview 37 2.2 Types of CAD Models 37 2.3 Planning Part Creation 39 2.4 Part Topology 40 2.5 Parametric Modeling 40 2.6 Customizing SolidWorks 42 2.7 Productivity Tools 43 2.8 Coordinate Systems 43 2.9 Sketch Planes 44 2.10 Sketch Status 46 2.11 Part Feature Tree 47 2.12 Construction Geometry 48 2.13 Reference Geometry 48 2.14 Sketch Entities 50 2.15 Sketch Relations 51 2.16 Equations and Link Values 51 2.17 Geometric Modifiers 53 2.18 Grids 54 2.19 Patterns 54 2.20 Selecting, Editing, and Measuring Entities 58 2.21 Boolean Operations 59 2.22 Templates 61 2.23 Viewing 61 2.24 Model Communication 62 2.25 Tutorials 63 Tutorial 2-1 Create a Coil Spring 63 Tutorial 2-2 Create a Mount Plate 65 Tutorial 2-3 Create a Bracket 66 Tutorial 2-4 Create a Wheel 67 Tutorial 2-5 Create a Tire and a Pin 69 Tutorial 2-6 Create a Caster Assembly 70 Problems 73 Chapter 3 Design Intent 81 3.1 Introduction 81 3.2 Capturing Design Intent 82 3.3 Documenting Design Intent 83 3.4 Comments 83 3.5 Design Binder 84 3.6 Equations 85 3.7 Design Tables and Configurations 85 3.8 Dimension Names 85 3.9 Feature Names 85 3.10 Folders 86 3.11 Tutorials 86 Tutorial 3-1 Design Intent via Two Modeling Plans 86 Tutorial 3-2 Design Intent via Three Modeling Plans 89 Tutorial 3-3 Design Intent via Design Specifications 91 Tutorial 3-4 Design Intent via Mating Conditions 93 Problems 95 PART II: BASIC PART MODELING 97 Chapter 4 Features and Macros 99 4.1 Introduction 99 4.2 Features 100 4.3 Spur Gears 103 4.4 Design Library and Library Features 109 4.5 Configurations and Design Tables 110 4.6 Macros 111 4.7 Tutorials 114 Tutorial 4-1 Create Sweep Features 114 Tutorial 4-2 Create Loft Features 116 Tutorial 4-3 Use the Hole Wizard 118 Tutorial 4-4 Create Compression Spring 119 Tutorial 4-5 Create Spiral 120 Tutorial 4-6 Create Features 121 Tutorial 4-7 Use the Smart Fasteners Wizard 122 Tutorial 4-8 Create a Bolt 123 Problems 126 Chapter 5 Drawings 135 5.1 Introduction 135 5.2 Engineering Drafting and Graphics Communication 136 5.3 ASME Abbreviation Rules 137 5.4 ASME Drafting Rules 138 5.5 ASME Dimensioning Rules 139 5.6 Dimensions 142 5.7 Drawing Content and Layout 144 5.8 Angles of Projection 145 5.9 Views 146 5.10 Sheets 148 5.11 Title Blocks 149 5.12 Drafting Control 150 5.13 Tolerances 150 5.14 Bills of Materials 151 5.15 Model and Drawing Associativity 151 5.16 Design Checker 151 5.17 Tutorials 152 Tutorial 5-1 Create Drawing Views 152 Tutorial 5-2 Insert Annotations 153 Tutorial 5-3 Fill Title Block 153 Tutorial 5-4 Create Assembly Drawing with Bill of Materials 154 Tutorial 5-5 Use Model-Drawing Associativity 155 Problems 156 Chapter 6 Assemblies 157 6.1 Introduction 157 6.2 Assembly Mates 158 6.3 Bottom-Up Assembly Modeling 159 6.4 Top-Down Assembly Modeling 159 6.5 The Assembly Tree 164 6.6 Assembly Drawings 164 6.7 Assembly Exploded Views and Animations 164 6.8 Assembly Motion Study 165 6.9 Interference and Collision Detections 166 6.10 Assembly Design Tables 166 6.11 Tutorials 166 Tutorial 6-1 Create a Cam and a Follower Assembly 167 Tutorial 6-2 Create a Working Hinge Assembly 168 Tutorial 6-3 Mate Two Gears with a Gear Mate 169 Tutorial 6-4 Create a Functional Rack and Pinion 171 Tutorial 6-5 Create a Functional Ball Screw 173 Tutorial 6-6 Study Universal Joint Motion 174 Tutorial 6-7 Create a Motion Study 176 Tutorial 6-8 Detect Collision and Interference 178 Tutorial 6-9 Create a Design Table 179 Tutorial 6-10 Create a Part in the Context of an Assembly 180 Problems 183 Chapter 7 Rendering and Animation 195 7.1 Introduction 195 7.2 Scenes and Lighting 196 7.3 Rendering Models 197 7.4 Decals 198 7.5 Textures 199 7.6 Materials 199 7.7 Appearance and Transparency 201 7.8 Background and Scenes 201 7.9 Cameras and Camera Sleds 201 7.10 Animation 201 7.11 Tutorials 202 Tutorial 7-1 Apply Colors to Objects 202 Tutorial 7-2 Apply a Background and a Scene 203 Tutorial 7-3 Apply Lights to a Scene 204 Tutorial 7-4 Add Material and Transparency 205 Tutorial 7-5 Add a Camera to a Scene 206 Tutorial 7-6 Create a Motion Study 207 Tutorial 7-7 Create a Camera-Sled Based Animation 210 Problems 213 PART III: ADVANCED PART MODELING 215 Chapter 8 Curves 217 8.1 Introduction 217 8.2 Curve Representation 218 8.3 Line Parametric Equation 219 8.4 Circle Parametric Equation 220 8.5 Spline Parametric Equation 221 8.6 Two-Dimensional Curves 222 8.7 Three-Dimensional Curves 223 8.8 Curve Management 224 8.9 Tutorials 224 Tutorial 8-1 Create a 2D Curve by Using an Explicit Equation 224 Tutorial 8-2 Create a 2D Curve by Using a Parametric Equation 225 Tutorial 8-3 Create a 3D Curve by Using a Parametric Equation 225 Tutorial 8-4 Create a 3D Curve by Using 3D Points 227 Tutorial 8-5 Create a 3D Curve by Using 3D Sketching 228 Tutorial 8-6 Create a 3D Curve by Using Composite Curves 229 Tutorial 8-7 Create a 3D Curve by Projecting a Sketch onto a Curved Face 231 Tutorial 8-8 Create a 3D Curve Using Projected Curves 232 Tutorial 8-9 Create a Stethoscope Model 241 Problems 244 Chapter 9 Surfaces 249 9.1 Introduction 249 9.2 Surfaces 249 9.3 Using Surfaces in Solid Modeling 252 9.4 Surface Representation 254 9.5 Plane Parametric Equation 255 9.6 Ruled Surface Parametric Equation 257 9.7 Surface Visualization 260 9.8 Surface Management 260 9.9 Tutorials 261 Tutorial 9-1 Create Basic Surfaces: Extrude, Revolve, Loft, Sweep, Knit, and Radiate 261 Tutorial 9-2 Create Basic Surfaces: Planar, Filled, Boundary, and Offset 263 Tutorial 9-3 Visualize Surfaces 264 Tutorial 9-4 Create an Artistic Bowl 265 Tutorial 9-5 Use Surface Intersections 268 Tutorial 9-6 Create a Tablespoon 269 Tutorial 9-7 Create a Computer Mouse 271 Tutorial 9-8 Create a Baseball Hat 273 Tutorial 9-9 Create a Hair Dryer 277 Tutorial 9-10 Create an Oil Container 279 Problems 282 Chapter 10 Sheet Metal and Weldments 289 10.1 Introduction 289 10.2 Sheet Metal 289 10.3 Sheet Metal Features 291 10.4 Sheet Metal FeatureManager Design Tree 296 10.5 Sheet Metal Methods 297 10.6 Weldments 299 10.7 Weldment Features 301 10.8 Weld Symbols 305 10.9 Tutorials 306 Tutorial 10-1 Create Sheet Metal 306 Tutorial 10-2 Create a Sheet Metal Drawing 308 Tutorial 10-3 Create a Sheet Metal Part from a Solid Body 309 Tutorial 10-4 Create a Sheet Metal Part from a Flattened State 310 Tutorial 10-5 Create a Weldment 311 Tutorial 10-6 Create a Weldment Drawing 313 Problems 316 Chapter 11 Sustainable Design 319 11.1 Introduction 319 11.2 Design and Society 321 11.3 Guidelines and Principles 321 11.4 Life Cycle Assessment 323 11.5 Impact Metric 325 11.6 Implementation 327 11.7 Design Activities 327 11.8 Sustainable Design Tools 328 11.9 SolidWorks Sustainability 329 11.10 Tutorials 332 Tutorial 11-1 Redesign a Steel Washer 332 Problems 335 PART IV: PART DEVELOPMENT AND ANALYSIS 337 Chapter 1 2 Tolerances 339 12.1 Introduction 339 12.2 Tolerance Types 340 12.3 Tolerance Concepts 340 12.4 ASME Tolerance Rules 343 12.5 Tolerancing Tapers 347 12.6 Limits of Dimensions 348 12.7 Tolerance Accumulation 353 12.8 Statistical Tolerancing 354 12.9 True Position 356 12.10 Geometric Tolerances 357 12.11 Datum Target Symbols 359 12.12 Tolerance Interpretation 360 12.13 Tolerance Analysis 362 12.14 SolidWorks Tolerance Analysis 364 12.15 Tutorials 367 Tutorial 12-1 Create Conventional Tolerances 367 Tutorial 12-2 Create Geometric Tolerances 369 Tutorial 12-3 Define Datum Targets 370 Tutorial 12-4 Tolerance a Taper 371 Tutorial 12-5 Perform Tolerance Stack-up Analysis 372 Problems 374 Chapter 13 Analysis Tools 377 13.1 Introduction 377 13.2 Data Exchange 378 13.3 Mass Properties 381 13.4 Animation and Motion Analysis 385 13.5 Flow Simulation 386 13.6 Finite Element Method 386 13.7 Finite Element Analysis 389 13.8 SolidWorks Simulation 391 13.9 Von Mises Stress 391 13.10 Tutorials 396 Tutorial 13-1 Export Native SolidWorks Files 396 Tutorial 13-2 Import IGES and STEP Files into SolidWorks 396 Tutorial 13-3 Calculate Mass Properties of a Solid 397 Tutorial 13-4 Perform Motion Analysis Using a Motor 398 Tutorial 13-5 Perform Static Linear FEA on a Part 403 Tutorial 13-6 Perform Thermal FEA on a Part 405 Tutorial 13-7 Perform Flow Analysis on a Hose 406 Problems 408 PART V: PART MANUFACTURING 409 Chapter 14 Rapid Prototyping 411 14.1 Introduction 411 14.2 RP Applications 412 14.3 RP Overview 414 14.4 RP Concepts 414 14.5 SolidWorks Triangulation 417 14.6 RP Steps 418 14.7 RP Building Techniques 419 14.8 Bottle Prototype 420 14.9 Tutorials 421 Tutorial 14-1 Generate Part Prototype File 421 Tutorial 14-2 Generate Assembly Prototype File 422 Tutorial 14-3 Read Back an STL File 423 Problems 425 Chapter 15 Numerical Control Machining 427 15.1 Introduction 427 15.2 Basics of Machine Tools 428 15.3 Basics of Machining 430 15.4 Turning 438 15.5 Drilling 438 15.6 Milling 439 15.7 Electrical Discharge Machining 439 15.8 Manufacturing of Design 441 15.9 SolidWorks DFMXpress 442 15.10 Basics of NC Machining 445 15.11 G-Code and M-Code Programming 447 15.12 CAM Add-In Software 449 15.13 Tutorials 449 Tutorial 15-1 Drill Holes 450 Tutorial 15-2 Mill Faces 452 Tutorial 15-3 Mill Pockets 455 Tutorial 15-4 Mill Slots 457 Problems 460 Chapter 16 Injection Molding 463 16.1 Introduction 463 16.2 Basics of Injection Molding Machines 464 16.3 Basics of Injection Molding 465 16.4 Basics of Mold Design 467 16.5 Basics of Part Design 470 16.6 Phases of Mold Design 471 16.7 SolidWorks Mold Design 472 16.8 Tutorials 473 Tutorial 16-1 Create a Block Mold 473 Tutorial 16-2 Create a Sandbox Mold 477 Tutorial 16-3 Create a Hemisphere Mold 481 Tutorial 16-4 Create an Easter Egg Mold 484 Tutorial 16-5 Generate a Mold Drawing 487 Problems 488 Appendix A ANSI and ISO Tolerance Tables 491 Appendix B SolidWorks Certification 505 B.1 Certified SolidWorks Associate (CSWA) 505 B.2 Certified SolidWorks Professional (CSWP) 506 B.3 CSWP-Surfacing 506 B.4 CSWP-Sheet Metal 507 B.5 CSWP-Weldments 507 B.6 CSWP-Simulation 507 B.7 CSWP-Mold Making 508 B.8 Testing Resources 508 B.9 Sample Test Questions 509 Index 517 Feature Contains new figures throughout, and reflects the latest refinements to SolidWorks workflow Thoroughly covers developing parts, assemblies, drawings, and more Presents valuable specialized information on SolidWorks toolboxes and manufacturing techniques, including sheet metal, injection molding, and animation Ancillaries include Instructor Notes and PowerPoint lecture slides, which will be downloadable from Pearsons Instructor Resource Center at pearson.com/us New Feature This 3rd Edition will contain new figures featuring SolidWorks 2021, the latest version, and will reflect workflow changes since the prior edition. Details ISBN0136887260 Author Ibrahim Zeid Language English Year 2021 Edition 3rd ISBN-10 0136887260 ISBN-13 9780136887263 Format Paperback DEWEY 620.00420285536 Pages 560 Country of Publication United States Illustrations Illustrations, unspecified Imprint Peachpit Press Publications Place of Publication Berkeley AU Release Date 2021-05-05 NZ Release Date 2021-05-05 Publication Date 2021-05-12 UK Release Date 2021-05-12 Publisher Pearson Education (US) Edition Description 3rd edition Replaces 9780133885941 Audience Professional & Vocational US Release Date 2021-05-12 We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! TheNile_Item_ID:161626715;
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ISBN-13: 9780136887263
Book Title: Mastering SolidWorks
Publication Name: Mastering Solidworks
Format: Paperback
Language: English
Publisher: Pearson Education (Us)
Subject: Engineering & Technology, Computer Science
Publication Year: 2021
Type: Textbook
Author: Ibrahim Zeid
Item Weight: 1110 g
Number of Pages: 560 Pages
