Rapid Prototyping
Principles and Applications
1. Auflage November 2005
400 Seiten, Hardcover
Wiley & Sons Ltd
Kurzbeschreibung
Rapid Prototyping provides a manufacturing design process that greatly reduces the time and money involved in new product design and process development. This is the first book to target the general manufacturing processes market at the college level. It presents a number of case studies and examples from the author's work in the area.
Rapid prototyping is a faster, more cost-effective method for building prototypes from three-dimensional computer-aided design (CAD) drawings. Rapid Prototyping provides a fundamental overview of the general manufacturing process and presents the principles and applications of designing and fabricating parts in a format that makes learning easy. This user-friendly text clearly covers the rapid prototyping process for students and can also be used as a reference in a new product design and process development.
Packed with real-world problems and case studies, Rapid Prototyping features:
* Basic information on layered manufacturing processes, the essential vocabulary to be conversant in nomenclature and widely recognized acronyms, and numerous review exercises
* A full section of applications to stimulate both discussion and outside research on the ever-expanding arena of rapid prototyping applications
* Essential information for potential users of the rapid prototyping technology in an academic or industrial setting, including helpful material for further study and applications to real-world problems
Rapid Prototyping is the perfect introductory book for design engineers in manufacturing, government organizations, and associations; researchers at universities and government labs; and students.
Acknowledgments.
About the Author.
1 Introduction.
1.1 Introduction.
1.2 World of RP.
1.3 History of RP.
1.4 Development of RP Systems.
1.5 Applications in Education and Industry.
1.6 Case Study: Fabricating a Prototype Using 3D Printing.
1.7 Summary.
2 Principles of Rapid Prototyping.
2.1 Principles of Automated Processes.
2.2 RP Fundamentals.
2.3 Problems with STL File Format.
2.4 Other Translators.
2.5 Case Study: Designing and Prototyping a Spur Gear.
2.6 Summary.
3 Liquid-Based RP Systems.
3.1 Classification of RP Systems.
3.2 3D Systems' Stereolithography Apparatus (SLA).
3.3 D-MEC's Solid Creation System.
3.4 CMET Solid Object UV Laser Plotter.
3.5 Summary.
4 Solid-Based RP Systems.
4.1 Stratasys' Fused Deposition Modeling Systems.
4.2 Helysis Laminated Object Manufacturing System.
4.3 Solidscape's 3D Printing and Deposition Milling.
4.4 3D Systems' Multijet Modeling System.
4.5 KIRA's Selective Adhesive and Hot Pass (SAHP) System.
4.6 Summary.
5 Powder-Based RP Systems.
5.1 3D Systems' Selective Laser Sintering.
5.2 MIT's Three-Dimensional Printing.
5.3 Z Corporation's Process (Z406 System).
5.4 Soligen's Direct Shell Production Casting.
5.5 EOS's Laser Sintering Systems.
5.6 e-Manufacturing using Laser Sintering.
5.7 Summary.
6 Materials for Rapid Prototyping.
6.1 Introduction.
6.2 Types of Materials.
6.3 Liquid-Based Materials.
6.4 Solid-Based Materials.
6.5 Powder-Based Materials.
6.6 Case Study.
6.7 Summary.
7 Reverse Engineering.
7.1 Introduction.
7.2 Measuring Devices.
7.3 CAD Model Construction from Point Clouds.
7.4 Data-Handling and Reduction Methods.
7.5 Applications and Trends.
7.6 Case Study.
7.7 Summary.
8 Rapid Tooling.
8.1 Introduction.
8.2 Indirect Methods of RT.
8.3 Direct Methods of RT.
8.4 Case Study: Sheet-Metal Forming by RT.
8.5 Summary.
9 Medical Applications in Rapid Prototyping.
9.1 Introduction.
9.2 Medical Applications of RP.
9.3 Types of Medical Imaging.
9.4 Software for Making Medical Models.
9.5 Medical Materials.
9.6 Other Applications.
9.7 Summary.
10 Industry Perspectives.
10.1 Guidelines for Implementation.
10.2 Operating Issues.
10.3 Managing Issues.
10.4 Service Bureaus.
10.5 Rapid Prototyping Consortia.
10.6 Present and Future Trends.
10.7 Summary.
11 Research and Development.
11.1 Improvement of FDM Process Using Design of Experiment.
11.2 Improvement of Part Accuracy.
11.3 Effects of Cryogenic Processing on RP Materials.
11.4 New Technologies.
11.5 Summary.
Appendix A: RP Resources.
Appendix B: Worldwide RP System Manufacturers.
Appendix C: Rapid Tooling Technology Suppliers.
Appendix D: RP Software Developers.
Appendix E: RP Material Suppliers.
Glossary.
List of Abbreviations.
Index..
