Design principles and methodologies : from conceptualization to first prototyping with examples and case studies /
| Main Authors: | , |
|---|---|
| Corporate Author: | |
| Format: | eBook |
| Language: | English |
| Published: |
Cham, Switzerland :
Springer,
2018.
|
| Series: | Springer tracts in mechanical engineering.
|
| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Intro; Foreword; Preface; Acknowledgements; Contents; About the Authors; Introduction; References; Part I Methods; 1 Engineering Design and Industrial Design; 1.1 Epistemology of Design; 1.1.1 Multidimensional Aspects of Design Thinking; 1.1.2 Reductionism and Holism; 1.2 Definitions; 1.2.1 How Engineering Design Is Defined; 1.2.2 How Industrial Design Is Defined; 1.3 Two Different Approaches; 1.3.1 Inside-Out and Outside-In Working Process; 1.4 Fidelity to a Tradition; 1.5 What We Have Learned from This Chapter; References; 2 Design Methods; 2.1 The Cognitive Nature of Design
- 2.1.1 Common Origin: The Cartesian Method2.1.2 An Evolutionary Thinking: One Thing Leads to Another; 2.1.3 Counter-Example; 2.2 VDI Guidelines; 2.3 The Pahl and Beitz Method; 2.3.1 Conceptual Design; 2.3.2 Embodiment Design; 2.3.3 Detail Design; 2.4 Other Systematic Approaches; 2.5 Systematic Engineering Design in an Industrial Context; 2.6 Design Standards; 2.6.1 Quality Management System (QMS); 2.6.2 Operation Planning; 2.7 What We Have Learned from This Chapter; References; 3 Requirements and Specifications; 3.1 Definitions; 3.2 Systematic Search; 3.2.1 Information Gathering
- 3.3 Logic Based Concept Selection3.3.1 QFD; 3.3.2 Examples; 3.4 Usability Based Concept Selection; 3.4.1 Conceptual Design Process Using QFD; 3.5 Design Development; 3.5.1 Design Review; 3.6 Technical Specifications; 3.6.1 Guidelines for Writing a Technical Specification; 3.7 What We Have Learned from This Chapter; References; 4 Invention and Innovation; 4.1 Innovation Versus Invention; 4.2 Innovation of Product and Process; 4.2.1 Innovation Strategies; 4.3 The Life-Cycle of the Product and Designer's Tasks; 4.4 Profit Versus Innovation; 4.5 The Time Factor; 4.6 Technology Readiness Level
- 4.6.1 Innovation Examples4.7 Risk Associated with Technological Innovation; 4.8 What We Have Learned from This Chapter; References; Part II Special Topics; 5 Safety Assessment; 5.1 Design for Safety; 5.1.1 Design for an Infinite Life; 5.1.2 Design for a Safe-Life; 5.1.3 Fail-Safe Design; 5.1.4 Damage-Tolerant Design; 5.1.5 Design with Redundancy; 5.2 Deterministic Approach: Safety Factor; 5.3 Probabilistic Approach: Safety Index; 5.4 Failure Rate, MTTF and MTBF; 5.5 Reliability of Systems with Simple Structure; 5.6 Failure Mode and Effect Analysis; 5.6.1 Who Does FMEAs
- 5.6.2 Design FMEA (DFMEA)5.6.3 Process FMEA (PFMEA); 5.6.4 Risk Priority Number; 5.6.5 Recommended Strategies; 5.7 What We Have Learned from This Chapter; References; 6 Design of Experiment; 6.1 The DOE Philosophy; 6.1.1 Analysis of Variance of One Factor Design; 6.1.2 Note on the Hypothesis Testing; 6.1.3 General Expression of Designs with Two Factors at Multiple Levels and Replications; 6.2 Design with Two Variables at Two Levels and One Replication; 6.2.1 Response Surface for the Design with Two Variables at Two Levels; 6.3 Design with Three Factors at Two Levels