TY - JOUR
T1 - Modularisation Strategies for Individualised Precast Construction—Conceptual Fundamentals and Research Directions
AU - Kolbeck, Lothar
AU - Kovaleva, Daria
AU - Manny, Agemar
AU - Stieler, David
AU - Rettinger, Martin
AU - Renz, Robert
AU - Tošić, Zlata
AU - Teschemacher, Tobias
AU - Stindt, Jan
AU - Forman, Patrick
AU - Borrmann, André
AU - Blandini, Lucio
AU - Stempniewski, Lothar
AU - Stark, Alexander
AU - Menges, Achim
AU - Schlaich, Mike
AU - Albers, Albert
AU - Lordick, Daniel
AU - Bletzinger, Kai Uwe
AU - Mark, Peter
N1 - Publisher Copyright:
© 2023 by the authors.
PY - 2023/12
Y1 - 2023/12
N2 - Modular precast construction is a methodological approach to reduce environmental impacts and increase productivity when building with concrete. Constructions are segmented into similar precast concrete elements, prefabricated with integrated quality control, and assembled just-in-sequence on site. Due to the automatised prefabrication, inaccuracies are minimised and the use of high-performance materials is enabled. As a result, the construction process is accelerated, and the modules can be designed to be lightweight and resource-efficient. This contribution presents the fundamentals of modular constructions made from precast concrete components. Then, to elaborate the requirements of a contemporary modular precast construction, the historic developments are described. Further, concepts and technical processes–comprehensible to non-expert readers–are introduced to formalise the discussion about the current state-of-the-art methods. Three case studies treating ongoing research are introduced and related to the conceptual fundamentals. The research is evaluated with regard to current barriers and future directions. In conclusion, modular precast construction is able to reduce emissions and increase productivity in the sector if researchers and firms coordinate the development of suitable technologies that bring value to critical stakeholders.
AB - Modular precast construction is a methodological approach to reduce environmental impacts and increase productivity when building with concrete. Constructions are segmented into similar precast concrete elements, prefabricated with integrated quality control, and assembled just-in-sequence on site. Due to the automatised prefabrication, inaccuracies are minimised and the use of high-performance materials is enabled. As a result, the construction process is accelerated, and the modules can be designed to be lightweight and resource-efficient. This contribution presents the fundamentals of modular constructions made from precast concrete components. Then, to elaborate the requirements of a contemporary modular precast construction, the historic developments are described. Further, concepts and technical processes–comprehensible to non-expert readers–are introduced to formalise the discussion about the current state-of-the-art methods. Three case studies treating ongoing research are introduced and related to the conceptual fundamentals. The research is evaluated with regard to current barriers and future directions. In conclusion, modular precast construction is able to reduce emissions and increase productivity in the sector if researchers and firms coordinate the development of suitable technologies that bring value to critical stakeholders.
KW - industrial building construction
KW - modular construction
KW - modular design
KW - precast design
UR - http://www.scopus.com/inward/record.url?scp=85180662051&partnerID=8YFLogxK
U2 - 10.3390/designs7060143
DO - 10.3390/designs7060143
M3 - Article
AN - SCOPUS:85180662051
SN - 2411-9660
VL - 7
JO - Designs
JF - Designs
IS - 6
M1 - 143
ER -