Details
| Translated title of the contribution | Production of the first concrete and reinforced concrete columns by means of 3D printing with concrete |
|---|---|
| Original language | German |
| Pages (from-to) | 28-37 |
| Number of pages | 10 |
| Journal | Betonwerk und Fertigteil-Technik/Concrete Precasting Plant and Technology |
| Volume | 85 |
| Issue number | 6 |
| Publication status | Published - 2019 |
Abstract
According to estimates of the Federal Statistical Office Germany has a lack of about one million homes. Moreover many building structures in Germany arc old and dilapidated and need to be replaced as soon as possible. Even if at present, substantial efforts are undertaken on the part of government and industry to react to these drawbacks, new construction Is faced with essential problems due to an industry-specific, individual planning and production of building structures, the long construction periods depending on weather conditions, the manual, time-consuming and fault-prone on-site production as well as the high costs associated. The precast concrete industry, with its partially industrial and standardized production of precast parts and elements (l), enables savings in terms of time and money, but often does not allow considering the clients' individual requirements on arehitecture optimally. Allowing individual, fast and cost-effective construction of high quality in the future, for one thing, requires die entire digitization of manufacturing processes and. for another thing, the manufacturing of structural members needs to be designed in an automated and flexible manner. In this regard, the concrete 3D printing technology in combination with an automated assembly line production (Fig. 1) is a promising approach. Design, dimensioning and planning of the individual structural members takes place in a digital planning environment. Afterwards, these data are transferred to the fully-automated assembly line production and the structural members arc printed (e.g., overnight) by robots. In future, this entirely digital manufacturing process (digital workflow) will allow the production of precast components of high quality and completely adjusted to the requirements of the clients in a cost-effective manner.
ASJC Scopus subject areas
- Business, Management and Accounting(all)
- General Business,Management and Accounting
- Engineering(all)
- Building and Construction
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In: Betonwerk und Fertigteil-Technik/Concrete Precasting Plant and Technology, Vol. 85, No. 6, 2019, p. 28-37.
Research output: Contribution to journal › Article › Research
}
TY - JOUR
T1 - Herstellung erster Beton- und Stahlbetonstützen mittels 3D-Betondruck
AU - Kloft, Harald
AU - Empelmann, Martin
AU - Oettel, Vincent
AU - Ledderose, Lukas
N1 - Publisher Copyright: © 2019 Bauverlag BV GmbH. All rights reserved.
PY - 2019
Y1 - 2019
N2 - According to estimates of the Federal Statistical Office Germany has a lack of about one million homes. Moreover many building structures in Germany arc old and dilapidated and need to be replaced as soon as possible. Even if at present, substantial efforts are undertaken on the part of government and industry to react to these drawbacks, new construction Is faced with essential problems due to an industry-specific, individual planning and production of building structures, the long construction periods depending on weather conditions, the manual, time-consuming and fault-prone on-site production as well as the high costs associated. The precast concrete industry, with its partially industrial and standardized production of precast parts and elements (l), enables savings in terms of time and money, but often does not allow considering the clients' individual requirements on arehitecture optimally. Allowing individual, fast and cost-effective construction of high quality in the future, for one thing, requires die entire digitization of manufacturing processes and. for another thing, the manufacturing of structural members needs to be designed in an automated and flexible manner. In this regard, the concrete 3D printing technology in combination with an automated assembly line production (Fig. 1) is a promising approach. Design, dimensioning and planning of the individual structural members takes place in a digital planning environment. Afterwards, these data are transferred to the fully-automated assembly line production and the structural members arc printed (e.g., overnight) by robots. In future, this entirely digital manufacturing process (digital workflow) will allow the production of precast components of high quality and completely adjusted to the requirements of the clients in a cost-effective manner.
AB - According to estimates of the Federal Statistical Office Germany has a lack of about one million homes. Moreover many building structures in Germany arc old and dilapidated and need to be replaced as soon as possible. Even if at present, substantial efforts are undertaken on the part of government and industry to react to these drawbacks, new construction Is faced with essential problems due to an industry-specific, individual planning and production of building structures, the long construction periods depending on weather conditions, the manual, time-consuming and fault-prone on-site production as well as the high costs associated. The precast concrete industry, with its partially industrial and standardized production of precast parts and elements (l), enables savings in terms of time and money, but often does not allow considering the clients' individual requirements on arehitecture optimally. Allowing individual, fast and cost-effective construction of high quality in the future, for one thing, requires die entire digitization of manufacturing processes and. for another thing, the manufacturing of structural members needs to be designed in an automated and flexible manner. In this regard, the concrete 3D printing technology in combination with an automated assembly line production (Fig. 1) is a promising approach. Design, dimensioning and planning of the individual structural members takes place in a digital planning environment. Afterwards, these data are transferred to the fully-automated assembly line production and the structural members arc printed (e.g., overnight) by robots. In future, this entirely digital manufacturing process (digital workflow) will allow the production of precast components of high quality and completely adjusted to the requirements of the clients in a cost-effective manner.
UR - http://www.scopus.com/inward/record.url?scp=85069210422&partnerID=8YFLogxK
M3 - Artikel
VL - 85
SP - 28
EP - 37
JO - Betonwerk und Fertigteil-Technik/Concrete Precasting Plant and Technology
JF - Betonwerk und Fertigteil-Technik/Concrete Precasting Plant and Technology
SN - 0373-4331
IS - 6
ER -