Visualization, modeling, and graphics for engineering design (non MindTap drafting product; chapters 15-20 not included)

Brief Contents
Contents
Preface
Acknowledgments
About the Authors
Section 1: Laying the Foundation
Ch 1: An Introduction to Graphical Communication in Engineering
Objectives
1.01: Introduction
1.02: A Short History
1.03: Engineering Graphics Technology
1.04: The Modern Role of Engineering Graphics
1.05: Chapter Summary
1.06: Glossary of Key Terms
1.07: Questions for Review
1.08: Problems
Ch 2: Sketching
Objectives
2.01: Introduction
2.02: Sketching in the Engineering Design Process
2.03: Sketching Lines
2.04: Sketching Curved Entities
2.05: Construction Lines
2.06: Coordinate Systems
2.07: Isometric Sketches of Simple Objects
2.08: Oblique Pictorials
2.09: Shading and Other Special Effects
2.10: Sketching Complex Objects
2.11: Chapter Summary
2.12: Glossary of Key Terms
2.13: Questions for Review
2.14: Problems
Ch 3: Visualization
Objectives
3.01: Introduction
3.02: Background
3.03: Development of Spatial Skills
3.04: Types of Spatial Skills
3.05: Assessing Spatial Skills
3.06: The Importance of Spatial Skills
3.07: Isometric Corner Views of Simple Objects
3.08: Object Rotations about a Single Axis
3.09: Rotation about Two or More Axes
3.10: Reflections and Symmetry
3.11: Cross Sections of Solids
3.12: Combining Solids
3.13: Chapter Summary
3.14: Glossary of Key Terms
3.15: Questions for Review
3.16: Problems
Ch 4: Creativity and the Design Process
Objectives
4.01: Introduction
4.02: What is Design?
4.03: Creativity in Design
4.04: The Engineering Design Process
4.05: The Concurrent Engineering Design Process
4.06: Chapter Summary
4.07: Glossary of Key Terms
4.08: Questions for Review
4.09: Design Projects
Section 2: Modern Design Practice and Tools
Ch 5: Solid Modeling
Objectives
5.01: Introduction
5.02: Tools for Developing Your Idea
5.03: A Parametric Solid Model
5.04: Making It Precise
5.05: Strategies for Combining Profile Constraints
5.06: More Complexity Using Constructive Solids
5.07: Breaking It down into Features
5.08: More Ways to Create Sophisticated Geometry
5.09: The Model Tree
5.10: Families of Parts
5.11: Extraction of 2-D Drawings
5.12: Chapter Summary
5.13: Glossary of Key Terms
5.14: Questions for Review
5.15: Problems
Ch 6: Assembly Modeling
Objectives
6.01: Introduction
6.02: Assembly Terminology
6.03: Assembly Hierarchy
6.04: Assembly Constraints
6.05: Exploded Configurations
6.06: Interferences and Clearances
6.07: Bill of Materials
6.08: Assembly Strategy
6.09: Strategy for Bottom-up Assembly Modeling
6.10: Chapter Summary
6.11: Glossary of Key Terms
6.12: Questions for Review
6.13: Problems
Ch 7: Design Analysis
Objectives
7.01: Introduction
7.02: Reverse Engineering
7.03: Metrology Tools for Reverse Engineering
7.04: The Reverse Engineering Process
7.05: Geometric Properties Analysis
7.06: Finite Element Analysis
7.07: Chapter Summary
7.08: Glossary of Key Terms
7.09: Questions for Review
7.10: Problems
Section 3: Setting Up an Engineering Drawing
Ch 8: Orthogonal Projection and Multiview Representation
Objectives
8.01: Introduction
8.02: A More Precise Way to Communicate Your Ideas
8.03: The Glass Box
8.04: The Necessary Details
8.05: First-Angle Projection versus Third-Angle Projection
8.06: Breaking the Rules-and Why It is Good to Break Them Sometimes
8.07: When Six Views are Not Enough
8.08: Considerations for 3-D Modeling
8.09: Chapter Summary
8.10: Glossary of Key Terms
8.11: Questions for Review
8.12: Problems
Ch 9: Pictorial Drawings
Objectives
9.01: Introduction
9.02: Types of Pictorial Drawings
9.03: Axonometric Drawings
9.04: Oblique Drawings
9.05: Perspective Drawings
9.06: Considerations for 3-D Modeling
9.07: Chapter Summary
9.08: Glossary of Key Terms
9.09: Questions for Review
9.10: Problems
Ch 10: Section Views
Objectives
10.01: Introduction
10.02: A Look inside
10.03: Full Sections
10.04: What Happens to the Hidden Lines?
10.05: The Finer Points of Section Lines
10.06: Offset Sections
10.07: Half Sections
10.08: Removed Sections
10.09: Revolved Sections
10.10: Broken-Out Sections
10.11: Sections of Assemblies
10.12: A Few Shortcuts to Simplify Your Life
10.13: Considerations for 3-D Modeling
10.14: Chapter Summary
10.15: Glossary of Key Terms
10.16: Questions for Review
10.17: Problems
Ch 11: Auxiliary Views
Objectives
11.01: Introduction
11.02: Auxiliary Views for Solid Objects
11.03: Auxiliary Views of Irregular or Curved Surfaces
11.04: Creating Auxiliary Views
11.05: Solid Modeling Considerations in Creating Auxiliary Views
11.06: Chapter Summary
11.07: Glossary of Key Terms
11.08: Questions for Review
11.09: Problems
Section 4: Drawing Annotation and Design Implementation
Ch 12: Dimensioning
Objectives
12.01: Introduction
12.02: Is the Dimension I See on a Drawing Exact?
12.03: What are the Rules for Dimensioning?
12.04: Definitions
12.05: Redundancy is Dumb
12.06: Geometrically Correct, but Still Wrong!
12.07: Guidelines to Guide Your Lines
12.08: Shortcuts
12.09: Notes
12.10: Considerations for 3-D Modeling
12.11: Dimensions for the Plate Example
12.12: Fundamental Rules for Dimensioning
12.13: Chapter Summary
12.14: Glossary of Key Terms
12.15: Questions for Review
12.16: Problems
Ch 13: Tolerancing
Objectives
13.01: Introduction
13.02: Formats for Tolerances
13.03: Tolerance Buildup Problems
13.04: Use of Tables for Fits
13.05: Conventional Tolerancing versus Geometric Tolerancing
13.06: Geometric Dimensioning and Tolerancing (GD&T)
13.07: Chapter Summary
13.08: Glossary of Key Terms
13.09: Questions for Review
13.10: Problems
Ch 14: Working Drawings
Objectives
14.01: Introduction
14.02: Making It Formal
14.03: Sheet Sizes
14.04: The Formal Drawing Header in Manufacturing Drawings
14.05: The Drawing Area for Manufactured Parts
14.06: Parts, Subassemblies, and Assemblies
14.07: Construction Drawings
14.08: Construction Plans
14.09: Engineering Scales
14.10: Considerations for 3-D Modeling
14.11: Chapter Summary
14.12: Glossary of Key Terms
14.13: Questions for Review
14.14: Problems
Appendix
Glossary of Key Terms
Index