default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDShell Structures for Architecture, 2014
- Sigrid Adriaenssens, Philippe Block, Diederik Veenendaal, Chris Williams:
Shell Structures for Architecture - Form Finding and Optimization. Taylor & Francis 2014, ISBN 978-0-415-84060-6 - Jörg Schlaich:
On architects and engineers. Shell Structures for Architecture 2014: VIII-XI - Shigeru Ban:
Sharing the same spirit. Shell Structures for Architecture 2014: XII
Part I Shells for architecture
- John Ochsendorf, Philippe Block:
Exploring shell forms. Shell Structures for Architecture 2014: 7-14 - Laurent Ney, Sigrid Adriaenssens:
Shaping forces. Shell Structures for Architecture 2014: 15-20 - Chris Williams:
What is a shell? Shell Structures for Architecture 2014: 21-32 - Bill Addis:
Physical modelling and form finding. Shell Structures for Architecture 2014: 33-44 - Kai-Uwe Bletzinger, Ekkehard Ramm:
Computational form finding and optimization. Shell Structures for Architecture 2014: 45-56
Part II Form finding
- Klaus Linkwitz:
Force density method: design of a timber shell. Shell Structures for Architecture 2014: 59-70 - Philippe Block, Lorenz Lachauer, Matthias Rippmann:
Thrust network analysis: design of a cut-stone masonry vault. Shell Structures for Architecture 2014: 71-88 - Sigrid Adriaenssens, Mike Barnes, Richard Harris, Chris Williams:
Dynamic relaxation: design of a strained timber gridshell. Shell Structures for Architecture 2014: 89-102 - Shajay Bhooshan, Diederik Veenendaal, Philippe Block:
Particle-spring systems: design of a cantilevering concrete shell. Shell Structures for Architecture 2014: 103-114 - Diederik Veenendaal, Philippe Block:
Comparison of form-finding methods. Shell Structures for Architecture 2014: 115-130 - Axel Kilian:
Steering of form. Shell Structures for Architecture 2014: 131-140
Part III Structural optimization
- Klaus Linkwitz, Diederik Veenendaal:
Nonlinear force density method: constraints on force and geometry. Shell Structures for Architecture 2014: 143-156 - Tom Van Mele, Daniele Panozzo, Olga Sorkine-Hornung, Philippe Block:
Best-fit thrust network analysis: rationalization of freeform meshes. Shell Structures for Architecture 2014: 157-170 - James N. Richardson, Sigrid Adriaenssens, Rajan Filomeno Coelho, Philippe Bouillard:
Discrete topology optimization: connectivity for gridshells. Shell Structures for Architecture 2014: 171-180 - Peter Winslow:
Multi-criteria gridshell optimization: structural lattices on freeform surfaces. Shell Structures for Architecture 2014: 181-194 - Panagiotis Michalatos, Sawako Kaijima:
Eigenshells: structural patterns on modal forms. Shell Structures for Architecture 2014: 195-210 - Irmgard Lochner-Aldinger, Axel Schumacher:
Homogenization method: distribution of material densities. Shell Structures for Architecture 2014: 211-224 - Alberto Pugnale, Tomas Mendez Echenagucia, Mario Sassone:
Computational morphogenesis: design of freeform surfaces. Shell Structures for Architecture 2014: 225-236
Part IV Precedents
- Chris Williams:
The Multihalle and the British Museum: a comparison of two gridshells. Shell Structures for Architecture 2014: 239-246 - Maria E. Moreyra Garlock, David Billington:
Felix Candela and Heinz Isler: a comparison of two structural artists. Shell Structures for Architecture 2014: 247-258 - Mutsuro Sasaki:
Structural design of free-curved RC shells: an overview of built works. Shell Structures for Architecture 2014: 259-270
Conclusion
- Patrik Schumacher:
The congeniality of architecture and engineering - the future potential and relevance of shell structures in architecture. Shell Structures for Architecture 2014: 271-273
Appendices
- Chris Williams:
Appendix A: The finite element method in a nutshell. Shell Structures for Architecture 2014: 274-280 - Chris Williams:
Appendix B: Differential geometry and shell theory. Shell Structures for Architecture 2014: 281-289 - Rajan Filomeno Coelho, Tomas Mendez Echenagucia, Alberto Pugnale, James N. Richardson:
Appendix C: Genetic algorithms for structural design. Shell Structures for Architecture 2014: 290-294 - Paul Shepherd:
Appendix D: Subdivision surfaces. Shell Structures for Architecture 2014: 295-298
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
last updated on 2025-11-29 00:01 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
