Details
Original language | German |
---|---|
Pages (from-to) | 803-814 |
Number of pages | 12 |
Journal | Beton- und Stahlbetonbau |
Volume | 118 |
Issue number | 11 |
Publication status | Published - 6 Nov 2023 |
Abstract
Modular footbridges made of serially prefabricated concrete elements – Designs from DFG Priority Programme 2187. Modular building structures enable serial and automated production of prefabricated elements, which can be produced in a controlled manner in a precast concrete plant and then assembled on the construction site in a short time. This allows manufacturing processes to be optimised and new technologies of automated and robot-assisted production to be used. Off-site production reduces noise, dust and traffic at construction sites, and the rationalisation of processes in the precast concrete plant can minimise offcuts and waste, thus saving resources. In addition, high-performance materials can be processed with high precision in an environment protected from the weather, so that their properties are optimally utilised and a high and consistent quality is achieved. From the design engineer, modular construction requires a comprehensive understanding and consideration of manufacturing processes as well as careful planning of all joints of the structure. The design team is faced with the challenge of designing a functional, durable and aesthetically appealing structure despite the demands of modularisation, rationalisation and production. In the design studies presented in this paper, the authors meet this challenge by applying technologies from current research projects in modular concrete construction to a consistent design scenario of a pedestrian bridge.
ASJC Scopus subject areas
- Engineering(all)
- Building and Construction
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In: Beton- und Stahlbetonbau, Vol. 118, No. 11, 06.11.2023, p. 803-814.
Research output: Contribution to journal › Article › Research › peer review
}
TY - JOUR
T1 - Modulare Fußgängerbrücken aus seriell hergestellten Betonfertigteilen
T2 - Entwürfe aus dem DFG-Schwerpunktprogramm 2187
AU - Rettinger, Martin
AU - Prziwarzinski, André
AU - Meyer, Maximilian
AU - Kolbeck, Lothar
AU - Tošić, Zlata
AU - Hückler, Alex
AU - Lordick, Daniel
AU - Borrmann, André
AU - Haist, Michael
AU - Lohaus, Ludger
AU - Schlaich, Mike
N1 - Funding Information: Die Autoren bedanken sich herzlich bei der Deutschen Forschungsgemeinschaft für die Förderung der Forschungsvorhaben im Rahmen des Schwerpunktprogramms 2187 „Adaptive Modulbauweisen mit Fließfertigungsmethoden – Präzisionsschnellbau der Zukunft“. Ein besonderer Dank geht zudem an die Studierenden Sofia Moissiadis und Riham Saad, die im Rahmen ihrer Masterarbeit zu den Brückenentwürfen beigetragen haben.
PY - 2023/11/6
Y1 - 2023/11/6
N2 - Modular footbridges made of serially prefabricated concrete elements – Designs from DFG Priority Programme 2187. Modular building structures enable serial and automated production of prefabricated elements, which can be produced in a controlled manner in a precast concrete plant and then assembled on the construction site in a short time. This allows manufacturing processes to be optimised and new technologies of automated and robot-assisted production to be used. Off-site production reduces noise, dust and traffic at construction sites, and the rationalisation of processes in the precast concrete plant can minimise offcuts and waste, thus saving resources. In addition, high-performance materials can be processed with high precision in an environment protected from the weather, so that their properties are optimally utilised and a high and consistent quality is achieved. From the design engineer, modular construction requires a comprehensive understanding and consideration of manufacturing processes as well as careful planning of all joints of the structure. The design team is faced with the challenge of designing a functional, durable and aesthetically appealing structure despite the demands of modularisation, rationalisation and production. In the design studies presented in this paper, the authors meet this challenge by applying technologies from current research projects in modular concrete construction to a consistent design scenario of a pedestrian bridge.
AB - Modular footbridges made of serially prefabricated concrete elements – Designs from DFG Priority Programme 2187. Modular building structures enable serial and automated production of prefabricated elements, which can be produced in a controlled manner in a precast concrete plant and then assembled on the construction site in a short time. This allows manufacturing processes to be optimised and new technologies of automated and robot-assisted production to be used. Off-site production reduces noise, dust and traffic at construction sites, and the rationalisation of processes in the precast concrete plant can minimise offcuts and waste, thus saving resources. In addition, high-performance materials can be processed with high precision in an environment protected from the weather, so that their properties are optimally utilised and a high and consistent quality is achieved. From the design engineer, modular construction requires a comprehensive understanding and consideration of manufacturing processes as well as careful planning of all joints of the structure. The design team is faced with the challenge of designing a functional, durable and aesthetically appealing structure despite the demands of modularisation, rationalisation and production. In the design studies presented in this paper, the authors meet this challenge by applying technologies from current research projects in modular concrete construction to a consistent design scenario of a pedestrian bridge.
KW - automation
KW - bridge
KW - concrete
KW - design
KW - digitalisation
KW - modularity
KW - precast
KW - serial construction
UR - http://www.scopus.com/inward/record.url?scp=85173532257&partnerID=8YFLogxK
U2 - 10.1002/best.202300056
DO - 10.1002/best.202300056
M3 - Artikel
AN - SCOPUS:85173532257
VL - 118
SP - 803
EP - 814
JO - Beton- und Stahlbetonbau
JF - Beton- und Stahlbetonbau
SN - 0005-9900
IS - 11
ER -