A Paradigm In Digital Detail Design For A Complex Timber Framework

Timo Claus; Kaspar Ehrhart; Alexander Michalski; Julian Lienhard; Philipp Stute; Stephan Burger

A Paradigm In Digital Detail Design For A Complex Timber Framework

Timo Claus^*, Kaspar Ehrhart, Alexander Michalski, Julian Lienhard, Philipp Stute, Stephan Burger

^*Corresponding author for this work

Abstract

Detail design is still a challenge in structural timber constructions. On the one hand, there is a large variety of different fasteners that must be described neutrally and on the other hand, the solutions are depending on the manufacturing possibilities of the timber construction company, which is not known while planning the constructional details. Due to the uncommon spatial timber construction of the new museum in Reutlingen, a solution had to be found for both requirements, which also reduces the cost risk for the contractor and the client. Thus, the detail concept and the information behind are node-based. The use of attribution-based design in a Building Information Modelling (BIM) environment played a key role in this project to ensure a centralized model. The use of Rhino 7 in combination with Grasshopper and other plugins enabled a central management of all fasteners and the assignment of details with a single source of truth. The result was an open interface model that formed the basis for the final factory planning.

Original language	English
Title of host publication	Proceedings of the IASS 2024 Symposium
Subtitle of host publication	Redefining the Art of Structural Design
Editors	Philippe Block, Giulia Boller, Catherine DeWolf, Jacqueline Pauli, Walter Kaufmann
Number of pages	10
Publication status	Published - Aug 2024
Externally published	Yes
Event	IASS 2024 Symposium: Redefining the Art of Structural Design - Zürichs, Switzerland Duration: 26 Aug 2024 → 30 Aug 2024

Conference

Conference	IASS 2024 Symposium
Country/Territory	Switzerland
City	Zürichs
Period	26/08/24 → 30/08/24

Keywords

architectural engineering
timber constructions
timber-to-timber joints
form-fitting connections
interlocking connections
parametric 3D planning
BIM
data-based modelling
digital fabrication
building in existing structures

Access to Document

https://app.iass2024.org/files/IASS_2024_Paper_189.pdf

Cite this

@inproceedings{1dc389ba069d48cba1fa8606a2cef098,

title = "A Paradigm In Digital Detail Design For A Complex Timber Framework",

abstract = "Detail design is still a challenge in structural timber constructions. On the one hand, there is a large variety of different fasteners that must be described neutrally and on the other hand, the solutions are depending on the manufacturing possibilities of the timber construction company, which is not known while planning the constructional details. Due to the uncommon spatial timber construction of the new museum in Reutlingen, a solution had to be found for both requirements, which also reduces the cost risk for the contractor and the client. Thus, the detail concept and the information behind are node-based. The use of attribution-based design in a Building Information Modelling (BIM) environment played a key role in this project to ensure a centralized model. The use of Rhino 7 in combination with Grasshopper and other plugins enabled a central management of all fasteners and the assignment of details with a single source of truth. The result was an open interface model that formed the basis for the final factory planning.",

keywords = "architectural engineering, timber constructions, timber-to-timber joints, form-fitting connections, interlocking connections, parametric 3D planning, BIM, data-based modelling, digital fabrication, building in existing structures",

author = "Timo Claus and Kaspar Ehrhart and Alexander Michalski and Julian Lienhard and Philipp Stute and Stephan Burger",

year = "2024",

month = aug,

language = "English",

editor = "Philippe Block and Giulia Boller and Catherine DeWolf and Jacqueline Pauli and Walter Kaufmann",

booktitle = "Proceedings of the IASS 2024 Symposium",

note = "IASS 2024 Symposium : Redefining the Art of Structural Design ; Conference date: 26-08-2024 Through 30-08-2024",

}

Claus, T, Ehrhart, K, Michalski, A, Lienhard, J, Stute, P & Burger, S 2024, A Paradigm In Digital Detail Design For A Complex Timber Framework. in P Block, G Boller, C DeWolf, J Pauli & W Kaufmann (eds), Proceedings of the IASS 2024 Symposium : Redefining the Art of Structural Design. IASS 2024 Symposium, Zürichs, Switzerland, 26/08/24. <https://app.iass2024.org/files/IASS_2024_Paper_189.pdf>

A Paradigm In Digital Detail Design For A Complex Timber Framework. / Claus, Timo; Ehrhart, Kaspar; Michalski, Alexander et al.
Proceedings of the IASS 2024 Symposium : Redefining the Art of Structural Design. ed. / Philippe Block; Giulia Boller; Catherine DeWolf; Jacqueline Pauli; Walter Kaufmann. 2024.

Research output: Chapter in Book (Inbook) /Conference Proceeding › Conference Paper › Research Article/Contribution › peer-review

TY - GEN

T1 - A Paradigm In Digital Detail Design For A Complex Timber Framework

AU - Claus, Timo

AU - Ehrhart, Kaspar

AU - Michalski, Alexander

AU - Lienhard, Julian

AU - Stute, Philipp

AU - Burger, Stephan

PY - 2024/8

Y1 - 2024/8

N2 - Detail design is still a challenge in structural timber constructions. On the one hand, there is a large variety of different fasteners that must be described neutrally and on the other hand, the solutions are depending on the manufacturing possibilities of the timber construction company, which is not known while planning the constructional details. Due to the uncommon spatial timber construction of the new museum in Reutlingen, a solution had to be found for both requirements, which also reduces the cost risk for the contractor and the client. Thus, the detail concept and the information behind are node-based. The use of attribution-based design in a Building Information Modelling (BIM) environment played a key role in this project to ensure a centralized model. The use of Rhino 7 in combination with Grasshopper and other plugins enabled a central management of all fasteners and the assignment of details with a single source of truth. The result was an open interface model that formed the basis for the final factory planning.

AB - Detail design is still a challenge in structural timber constructions. On the one hand, there is a large variety of different fasteners that must be described neutrally and on the other hand, the solutions are depending on the manufacturing possibilities of the timber construction company, which is not known while planning the constructional details. Due to the uncommon spatial timber construction of the new museum in Reutlingen, a solution had to be found for both requirements, which also reduces the cost risk for the contractor and the client. Thus, the detail concept and the information behind are node-based. The use of attribution-based design in a Building Information Modelling (BIM) environment played a key role in this project to ensure a centralized model. The use of Rhino 7 in combination with Grasshopper and other plugins enabled a central management of all fasteners and the assignment of details with a single source of truth. The result was an open interface model that formed the basis for the final factory planning.

KW - architectural engineering

KW - timber constructions

KW - timber-to-timber joints

KW - form-fitting connections

KW - interlocking connections

KW - parametric 3D planning

KW - BIM

KW - data-based modelling

KW - digital fabrication

KW - building in existing structures

M3 - Conference Paper

BT - Proceedings of the IASS 2024 Symposium

A2 - Block, Philippe

A2 - Boller, Giulia

A2 - DeWolf, Catherine

A2 - Pauli, Jacqueline

A2 - Kaufmann, Walter

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Y2 - 26 August 2024 through 30 August 2024

ER -