Product Design Methods and PracticesCRC Press, 1999 M06 1 - 400 páginas "Focuses on functional, aesthetically pleasing, mechanically reliable, and easily made products that improve profitability for manufacturers and provide long-term satisfaction for customers. Offers concrete, practical insight immediately applicable to new product design and development projects." |
Contenido
| 1 | |
| 7 | |
Chapter 3 Design for Profitability | 19 |
Chapter 4 Improving Early Design Decisions | 38 |
Chapter 5 Principles of Good Design | 47 |
Chapter 6 Total Cost Reduction | 65 |
Chapter 7 Design Process Improvement | 78 |
Chapter 8 Customer Focused Concept Design | 91 |
Chapter 15 Tolerance Design | 198 |
Chapter 16 Component Design | 220 |
Chapter 17 Manufacturability ImprovementMethod | 244 |
Chapter 18 Elimination and SimplificationStrategies | 264 |
Chapter 19 Standardization Design | 288 |
Chapter 20 Standardization and Rationalization | 301 |
Chapter 21 Internal Standard Components | 310 |
Chapter 22 Design Improvement Methods | 323 |
Chapter 9 The Rational Building Block Method | 110 |
Chapter 10 Formal Concept Selection Methods | 122 |
Chapter 11 ModelDriven Design | 131 |
Chapter 12 ProcessDriven Design | 140 |
Chapter 13 Part Elimination Strategies | 166 |
Chapter 14 Assembly Design | 181 |
Chapter 23 Failure Mode and Effects Analysis | 351 |
Chapter 24 Design Review Checklist | 362 |
| 371 | |
Appendix | 376 |
| 377 | |
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Términos y frases comunes
alternatives analysis and/or assembly avoid block matrix building block Chapter component design component geometry considered constraints customer needs cycle decomposition design for manufacture design guideline design process design reviews design solutions design specification design team early design decisions effective eliminate engineering characteristics ensure evaluation example existing product facilitate failure mode Figure firm fixture flow FMEA function functional decomposition goal house of quality ideas identified important improve injection molding involved iteration KEY TAKEAWAYS large number List load manufacturing process marketing material matrix maximize methodology minimize modules molding optimize options performance physical concept possible potential preload probabilistic design product architecture product design product development rational redesign Refine residual stress result robust separate fasteners sheet metal forming standardization step stress concentration structured subassemblies subproblems subsolutions supplier systematic Table Taguchi method team members Test tolerance stack-up tooling total cost undesirable interactions value engineering