Introduction to Solid Modeling Using SolidWorks 2016
12th Edition
Published on 16. July 2016
Book
Paperback/Softback
400 pages
978-1-259-69656-5 (ISBN)
Description
Introduction to Solid Modeling using SolidWorks primarily consists of chapter-long tutorials, which introduce both basic concepts in solid modeling (such as part modeling, drawing creation, and assembly modeling) and more advanced applications of solid modeling in engineering analysis and design (such as mechanism modeling, mold creation, sheet metal bending, and rapid prototyping). Each tutorial is organized as "keystroke-level" instructions, designed to teach the use of the software. This new edition has been fully updated for the SolidWorks 2016 software package. All tutorials and figures have been modified for the new version of the software.
Additional resources are available online at www.mhhe.com/howard2016. Included on the website are tutorials for three popular SolidWorks Add-Ins, SolidWorks (R) Simulation, SolidWorks (R) MotionTM and PhotoView360, and the book figures in PowerPoint format. Instructors can also access PowerPoint files for each chapter, model files for all tutorials, and end-of-chapter problems, as well as a teaching guide.
Additional resources are available online at www.mhhe.com/howard2016. Included on the website are tutorials for three popular SolidWorks Add-Ins, SolidWorks (R) Simulation, SolidWorks (R) MotionTM and PhotoView360, and the book figures in PowerPoint format. Instructors can also access PowerPoint files for each chapter, model files for all tutorials, and end-of-chapter problems, as well as a teaching guide.
More details
Edition
12th edition
Language
English
Place of publication
OH
United States
Target group
College/higher education
Dimensions
Height: 259 mm
Width: 213 mm
Thickness: 14 mm
Weight
728 gr
ISBN-13
978-1-259-69656-5 (9781259696565)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
William "Ed" Howard holds a B.S. in civil engineering and an M.S. in engineering mechanics from Virginia Tech, and a Ph.D. in mechanical engineering from Marquette University. He is an associate professor in the East Carolina University Department of Engineering, where he teaches solid modeling, engineering computations, solid mechanics, and composite materials. Before beginning his academic career, Dr. Howard worked in industry for 14 years in design, analysis, and project engineering at Thiokol Corporation (Brigham City, UT), Spaulding Composites Company (Smyrna, TN), and Sta-Rite Industries (Delavan, WI). He is a registered professional engineer in the state of Wisconsin.
Joseph Musto holds a B.S. from Clarkson University, and an M.Eng. and Ph.D. from Rensselaer Polytechnic Institute, all in mechanical engineering. Before beginning his academic career, Dr. Musto worked in industry in held industrial positions with Brady Corporation (Milwaukee, WI) and Eastman Kodak Company (Rochester, NY). He is a registered professional engineer in the state of Wisconsin. He has been using and teaching solid modeling using SOLIDWORKS since 1998.
Joseph Musto holds a B.S. from Clarkson University, and an M.Eng. and Ph.D. from Rensselaer Polytechnic Institute, all in mechanical engineering. Before beginning his academic career, Dr. Musto worked in industry in held industrial positions with Brady Corporation (Milwaukee, WI) and Eastman Kodak Company (Rochester, NY). He is a registered professional engineer in the state of Wisconsin. He has been using and teaching solid modeling using SOLIDWORKS since 1998.
Content
Part One - Learning SolidWorks
1) Basic Part Modeling Techniques
2) Engineering Drawings
3) Additional Part Modeling Techniques
4) Advanced Part Modeling
5) Parametric Modeling Techniques
6) Creation of Assembly Models
7) Advanced Assembly Operations
8) Assembly Drawings
Part Two - Applications of SolidWorks
9) Generation of 2-D Layouts
10) Solution of Vector Problems
11) Analysis of Mechanisms
12) Design of Molds and Sheet Metal Parts
13) The Use of SolidWorks to Accelerate the Product Development Cycle
Appendix
A) Recommended Settings
B) The SolidWorks Interface: Use and Customization
Design Intent
Planning the Model
Selecting a Modeling Technique
Planning for Other Uses of the Model
Choosing the Initial Sketch Plane
Keeping It Simple
Exploiting Associativity
Symmetry in Modeling
Planning an Assembly Model
Part-Level and Assembly-Level Features
Manufacturing Considerations
Assembly-Level Dimensions
Future Study
Dynamics (Kinetics)
Manufacturing Processes, Geometric Dimensioning and Tolerancing, and Metrology
Industrial Design
Industrial Engineering
Mechanics of Materials
Machine Dynamics and Machine Design
Materials and Processes
1) Basic Part Modeling Techniques
2) Engineering Drawings
3) Additional Part Modeling Techniques
4) Advanced Part Modeling
5) Parametric Modeling Techniques
6) Creation of Assembly Models
7) Advanced Assembly Operations
8) Assembly Drawings
Part Two - Applications of SolidWorks
9) Generation of 2-D Layouts
10) Solution of Vector Problems
11) Analysis of Mechanisms
12) Design of Molds and Sheet Metal Parts
13) The Use of SolidWorks to Accelerate the Product Development Cycle
Appendix
A) Recommended Settings
B) The SolidWorks Interface: Use and Customization
Design Intent
Planning the Model
Selecting a Modeling Technique
Planning for Other Uses of the Model
Choosing the Initial Sketch Plane
Keeping It Simple
Exploiting Associativity
Symmetry in Modeling
Planning an Assembly Model
Part-Level and Assembly-Level Features
Manufacturing Considerations
Assembly-Level Dimensions
Future Study
Dynamics (Kinetics)
Manufacturing Processes, Geometric Dimensioning and Tolerancing, and Metrology
Industrial Design
Industrial Engineering
Mechanics of Materials
Machine Dynamics and Machine Design
Materials and Processes