Weight-optimized and mono-material concrete components by the integration of mineralized hollow spheres
D. Schmeer, und W. Sobek. Interfaces: architecture - engineering - science, IASS Symposium, September 25-28, 2017, Hamburg, Seite Paper 9600. (2017)
Zusammenfassung
The internal structure of concrete components can be adapted to a given static load profile by the
introduction of mineral hollow parts of different sizes. The resulting components have a minimal weight and can be completely recycled since they consist of one material only. The following article provides an overview of the concept developed at the ILEK. It focuses on the description of the hollow parts’ geometry and their manufacturing process. The authors further present different approaches for sphere packing in building components and the general mass-saving potential of this method.
%0 Conference Paper
%1 schmeer_weight-optimized_2017
%A Schmeer, Daniel
%A Sobek, Werner
%B Interfaces: architecture - engineering - science, IASS Symposium, September 25-28, 2017, Hamburg
%D 2017
%K concrete fabrication formwork, frozen method new sand sobek structures, waste-free
%P Paper 9600
%T Weight-optimized and mono-material concrete components by the integration of mineralized hollow spheres
%X The internal structure of concrete components can be adapted to a given static load profile by the
introduction of mineral hollow parts of different sizes. The resulting components have a minimal weight and can be completely recycled since they consist of one material only. The following article provides an overview of the concept developed at the ILEK. It focuses on the description of the hollow parts’ geometry and their manufacturing process. The authors further present different approaches for sphere packing in building components and the general mass-saving potential of this method.
@inproceedings{schmeer_weight-optimized_2017,
abstract = {The internal structure of concrete components can be adapted to a given static load profile by the
introduction of mineral hollow parts of different sizes. The resulting components have a minimal weight and can be completely recycled since they consist of one material only. The following article provides an overview of the concept developed at the ILEK. It focuses on the description of the hollow parts’ geometry and their manufacturing process. The authors further present different approaches for sphere packing in building components and the general mass-saving potential of this method.},
added-at = {2023-11-27T15:10:57.000+0100},
author = {Schmeer, Daniel and Sobek, Werner},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2ef31c1764ab39f6d66ec2c129918259e/jmueller},
booktitle = {Interfaces: architecture - engineering - science, {IASS} {Symposium}, {September} 25-28, 2017, {Hamburg}},
interhash = {8a8b38f723d70d5786b1040e57cd5505},
intrahash = {ef31c1764ab39f6d66ec2c129918259e},
keywords = {concrete fabrication formwork, frozen method new sand sobek structures, waste-free},
pages = {Paper 9600},
timestamp = {2023-11-27T15:10:57.000+0100},
title = {Weight-optimized and mono-material concrete components by the integration of mineralized hollow spheres},
year = 2017
}
