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Potential applications of segmented shells in architecture

  • Tobias Schwinn , Daniel Sonntag , Tobias Grun , James H. Nebelsick , Jan Knippers and Achim Menges
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Biomimetics for Architecture
This chapter is in the book Biomimetics for Architecture

Abstract

In architectural research, pavilions play a special role because, as temporary structures, they present an opportunity to investigate specific issues without having to fulfill all requirements for permanent buildings. The findings resulting from this investigation can then be utilized in the design and implementation of permanent buildings. In this contribution we describe the context in which the Rosenstein Timber Pavilion was created, and the special issues that were investigated in the project, as well as the knowledge gained from it. In addition, we provide an outlook on other current research topics in the field of segmented timber shells and their application in architecture.

Abstract

In architectural research, pavilions play a special role because, as temporary structures, they present an opportunity to investigate specific issues without having to fulfill all requirements for permanent buildings. The findings resulting from this investigation can then be utilized in the design and implementation of permanent buildings. In this contribution we describe the context in which the Rosenstein Timber Pavilion was created, and the special issues that were investigated in the project, as well as the knowledge gained from it. In addition, we provide an outlook on other current research topics in the field of segmented timber shells and their application in architecture.

Chapters in this book

  1. Frontmatter 1
  2. Contents 5
  3. Preface 6
  4. Why biomimetics? 8
  5. Everything Moves
  6. Introduction 12
  7. Plants In Action 14
  8. Movement Without Joints: (How) Does It Work? 22
  9. No Joint Ailments: How Plants Move And Inspire Technology 32
  10. From Pure Research To Biomimetic Products: The Flectofold Facade Shading Device 42
  11. Lightweight Versatility: Structure Instead Of Mass
  12. Introduction 52
  13. Reliably Withstanding High Loads 54
  14. Freezing: The Right Way 74
  15. Nature As Source Of Ideas For Modern Manufacturing Methods 84
  16. Rosenstein Pavilion: a lightweight concrete shell based on principles of biological structures 92
  17. Elegance And Lightness: Bio-Inspired Domes
  18. Introduction 102
  19. Building principles and structural design of sea urchins: examples of bio-inspired constructions 104
  20. Potential applications of segmented shells in architecture 116
  21. Snails as living 3D printers: free forms for the architecture of tomorrow 126
  22. Evolutive approaches to explorative design methods in architecture 134
  23. Branched Load Support Systems
  24. Introduction 142
  25. From plant branchings to technical support structures 144
  26. New branched loadbearing structures in architecture 153
  27. The plastid skeleton: a source of ideas in the nano range 163
  28. Abstracting instead of copying: in search of the formula for success 167
  29. Functionalist, organic, and biomimetic architecture 172
  30. The biomimetic promise 180
  31. Appendix 188
https://doi.org/10.1515/9783035617917-015

Chapters in this book

  1. Frontmatter 1
  2. Contents 5
  3. Preface 6
  4. Why biomimetics? 8
  5. Everything Moves
  6. Introduction 12
  7. Plants In Action 14
  8. Movement Without Joints: (How) Does It Work? 22
  9. No Joint Ailments: How Plants Move And Inspire Technology 32
  10. From Pure Research To Biomimetic Products: The Flectofold Facade Shading Device 42
  11. Lightweight Versatility: Structure Instead Of Mass
  12. Introduction 52
  13. Reliably Withstanding High Loads 54
  14. Freezing: The Right Way 74
  15. Nature As Source Of Ideas For Modern Manufacturing Methods 84
  16. Rosenstein Pavilion: a lightweight concrete shell based on principles of biological structures 92
  17. Elegance And Lightness: Bio-Inspired Domes
  18. Introduction 102
  19. Building principles and structural design of sea urchins: examples of bio-inspired constructions 104
  20. Potential applications of segmented shells in architecture 116
  21. Snails as living 3D printers: free forms for the architecture of tomorrow 126
  22. Evolutive approaches to explorative design methods in architecture 134
  23. Branched Load Support Systems
  24. Introduction 142
  25. From plant branchings to technical support structures 144
  26. New branched loadbearing structures in architecture 153
  27. The plastid skeleton: a source of ideas in the nano range 163
  28. Abstracting instead of copying: in search of the formula for success 167
  29. Functionalist, organic, and biomimetic architecture 172
  30. The biomimetic promise 180
  31. Appendix 188
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