Hybrid Tower, Designing Soft Structures

Mette Ramsgaard Thomsen, Martin Tamke, Anders Holden Deleuran, Ida Friis Tinning, Henrik Leander Evers, Christoph Gengnagel, Michel Schmeck

Publikation: Bidrag til bog/antologi/rapportKonferencebidrag i proceedingsForskningpeer review

Resumé

This paper presents the research project Hybrid Tower, an interdisciplinary collaboration between CITA—Centre for IT and Architecture, KET—Department for Structural Design and Technology, Fibrenamics, Universidade do Minho Guimarães, AFF a. ferreira & filhos, sa, Caldas de Vizela, Portugal and Essener Labor für Leichte Flächentragwerke, Universität Duisburg-Essen. Hybrid Tower is a hybrid structural system combining bending active compression members and tensile members for architectural design. The paper presents two central investigations: (1) the creation of new design methods that embed predictions about the inherent interdependency and material dependent performance of the hybrid structure and (2) the inter-scalar design strategies for specification and fabrication. The first investigation focuses on the design pipelines developed between the implementation of realtime physics and constraint solvers and more rigorous Finite Element methods supporting respectively design analysis and form finding and performance evaluation and verification. The second investigation describes the inter-scalar feedback loops between design at the macro scale (overall structural behaviour), meso scale (membrane reinforcement strategy) and micro scale (design of bespoke textile membrane). The paper concludes with a post construction analysis. Comparing structural and environmental data, the predicted and the actual performance of tower are evaluated and discussed.
OriginalsprogEngelsk
TitelModelling Behaviour : Design Modelling Symposium 2015
RedaktørerMette Ramsgaard Thomsen, Martin Tamke, Christoph Gengnagel, Billie Faircloth, Fabian Scheurer
Antal sider13
Udgivelses stedCham
ForlagSpringer
Publikationsdato2015
Sider87-99
ISBN (Trykt)978-3-319-24206-4
ISBN (Elektronisk)978-3-319-24208-8
DOI
StatusUdgivet - 2015
BegivenhedDesign Modelling sympoisum: Modelling Behaviour - KADK, Copenhagen, Danmark
Varighed: 28 sep. 20152 okt. 2015

Konference

KonferenceDesign Modelling sympoisum
LokationKADK
LandDanmark
ByCopenhagen
Periode28/09/201502/10/2015

Kunstnerisk udviklingsvirksomhed (KUV)

  • Nej

Citer dette

Ramsgaard Thomsen, M., Tamke, M., Holden Deleuran, A., Friis Tinning, I., Evers, H. L., Gengnagel, C., & Schmeck, M. (2015). Hybrid Tower, Designing Soft Structures. I M. R. Thomsen, M. Tamke, C. Gengnagel, B. Faircloth, & F. Scheurer (red.), Modelling Behaviour: Design Modelling Symposium 2015 (s. 87-99). Cham: Springer. https://doi.org/10.1007/978-3-319-24208-8_8
Ramsgaard Thomsen, Mette ; Tamke, Martin ; Holden Deleuran, Anders ; Friis Tinning, Ida ; Evers, Henrik Leander ; Gengnagel, Christoph ; Schmeck, Michel. / Hybrid Tower, Designing Soft Structures. Modelling Behaviour: Design Modelling Symposium 2015. red. / Mette Ramsgaard Thomsen ; Martin Tamke ; Christoph Gengnagel ; Billie Faircloth ; Fabian Scheurer. Cham : Springer, 2015. s. 87-99
@inproceedings{fb23f07e44a24d84939aae0b104df2bc,
title = "Hybrid Tower, Designing Soft Structures",
abstract = "This paper presents the research project Hybrid Tower, an interdisciplinary collaboration between CITA—Centre for IT and Architecture, KET—Department for Structural Design and Technology, Fibrenamics, Universidade do Minho Guimar{\~a}es, AFF a. ferreira & filhos, sa, Caldas de Vizela, Portugal and Essener Labor f{\"u}r Leichte Fl{\"a}chentragwerke, Universit{\"a}t Duisburg-Essen. Hybrid Tower is a hybrid structural system combining bending active compression members and tensile members for architectural design. The paper presents two central investigations: (1) the creation of new design methods that embed predictions about the inherent interdependency and material dependent performance of the hybrid structure and (2) the inter-scalar design strategies for specification and fabrication. The first investigation focuses on the design pipelines developed between the implementation of realtime physics and constraint solvers and more rigorous Finite Element methods supporting respectively design analysis and form finding and performance evaluation and verification. The second investigation describes the inter-scalar feedback loops between design at the macro scale (overall structural behaviour), meso scale (membrane reinforcement strategy) and micro scale (design of bespoke textile membrane). The paper concludes with a post construction analysis. Comparing structural and environmental data, the predicted and the actual performance of tower are evaluated and discussed.",
author = "{Ramsgaard Thomsen}, Mette and Martin Tamke and {Holden Deleuran}, Anders and {Friis Tinning}, Ida and Evers, {Henrik Leander} and Christoph Gengnagel and Michel Schmeck",
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Ramsgaard Thomsen, M, Tamke, M, Holden Deleuran, A, Friis Tinning, I, Evers, HL, Gengnagel, C & Schmeck, M 2015, Hybrid Tower, Designing Soft Structures. i MR Thomsen, M Tamke, C Gengnagel, B Faircloth & F Scheurer (red), Modelling Behaviour: Design Modelling Symposium 2015. Springer, Cham, s. 87-99, Design Modelling sympoisum, Copenhagen, Danmark, 28/09/2015. https://doi.org/10.1007/978-3-319-24208-8_8

Hybrid Tower, Designing Soft Structures. / Ramsgaard Thomsen, Mette; Tamke, Martin; Holden Deleuran, Anders; Friis Tinning, Ida; Evers, Henrik Leander; Gengnagel, Christoph; Schmeck, Michel.

Modelling Behaviour: Design Modelling Symposium 2015. red. / Mette Ramsgaard Thomsen; Martin Tamke; Christoph Gengnagel; Billie Faircloth; Fabian Scheurer. Cham : Springer, 2015. s. 87-99.

Publikation: Bidrag til bog/antologi/rapportKonferencebidrag i proceedingsForskningpeer review

TY - GEN

T1 - Hybrid Tower, Designing Soft Structures

AU - Ramsgaard Thomsen, Mette

AU - Tamke, Martin

AU - Holden Deleuran, Anders

AU - Friis Tinning, Ida

AU - Evers, Henrik Leander

AU - Gengnagel, Christoph

AU - Schmeck, Michel

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N2 - This paper presents the research project Hybrid Tower, an interdisciplinary collaboration between CITA—Centre for IT and Architecture, KET—Department for Structural Design and Technology, Fibrenamics, Universidade do Minho Guimarães, AFF a. ferreira & filhos, sa, Caldas de Vizela, Portugal and Essener Labor für Leichte Flächentragwerke, Universität Duisburg-Essen. Hybrid Tower is a hybrid structural system combining bending active compression members and tensile members for architectural design. The paper presents two central investigations: (1) the creation of new design methods that embed predictions about the inherent interdependency and material dependent performance of the hybrid structure and (2) the inter-scalar design strategies for specification and fabrication. The first investigation focuses on the design pipelines developed between the implementation of realtime physics and constraint solvers and more rigorous Finite Element methods supporting respectively design analysis and form finding and performance evaluation and verification. The second investigation describes the inter-scalar feedback loops between design at the macro scale (overall structural behaviour), meso scale (membrane reinforcement strategy) and micro scale (design of bespoke textile membrane). The paper concludes with a post construction analysis. Comparing structural and environmental data, the predicted and the actual performance of tower are evaluated and discussed.

AB - This paper presents the research project Hybrid Tower, an interdisciplinary collaboration between CITA—Centre for IT and Architecture, KET—Department for Structural Design and Technology, Fibrenamics, Universidade do Minho Guimarães, AFF a. ferreira & filhos, sa, Caldas de Vizela, Portugal and Essener Labor für Leichte Flächentragwerke, Universität Duisburg-Essen. Hybrid Tower is a hybrid structural system combining bending active compression members and tensile members for architectural design. The paper presents two central investigations: (1) the creation of new design methods that embed predictions about the inherent interdependency and material dependent performance of the hybrid structure and (2) the inter-scalar design strategies for specification and fabrication. The first investigation focuses on the design pipelines developed between the implementation of realtime physics and constraint solvers and more rigorous Finite Element methods supporting respectively design analysis and form finding and performance evaluation and verification. The second investigation describes the inter-scalar feedback loops between design at the macro scale (overall structural behaviour), meso scale (membrane reinforcement strategy) and micro scale (design of bespoke textile membrane). The paper concludes with a post construction analysis. Comparing structural and environmental data, the predicted and the actual performance of tower are evaluated and discussed.

UR - https://www.researchgate.net/publication/282295023_Hybrid_Tower_Designing_Soft_Structures

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DO - 10.1007/978-3-319-24208-8_8

M3 - Article in proceedings

SN - 978-3-319-24206-4

SP - 87

EP - 99

BT - Modelling Behaviour

A2 - Thomsen, Mette Ramsgaard

A2 - Tamke, Martin

A2 - Gengnagel, Christoph

A2 - Faircloth, Billie

A2 - Scheurer, Fabian

PB - Springer

CY - Cham

ER -

Ramsgaard Thomsen M, Tamke M, Holden Deleuran A, Friis Tinning I, Evers HL, Gengnagel C et al. Hybrid Tower, Designing Soft Structures. I Thomsen MR, Tamke M, Gengnagel C, Faircloth B, Scheurer F, red., Modelling Behaviour: Design Modelling Symposium 2015. Cham: Springer. 2015. s. 87-99 https://doi.org/10.1007/978-3-319-24208-8_8