Building envelopes manage several crucial functions,
including structural, thermal, hygric and aesthetic functions.
Classic fac¸ade concepts usually work with static elements like glass, metal or composite panels that primarily provide protection against the elements, and an additional layer of active systems that manage dynamic tasks like light protection or thermal regulation. Kinematic shell elements offer new ways to incorporate multiple dynamic functionalities into cladding
elements, and thus can help to generate new active, efficient and
aesthetic envelopes. We will introduce the concept of origami-inspired
multifunctional shell elements and discuss potential
applications.
%0 Conference Paper
%1 klett_potential_2017
%A Klett, Yves
%A Middendorf, Peter
%A Sobek, Werner
%A Haase, Walter
%A Heidingsfeld, Michael
%B 2017 IEEE International Conference on Advanced Intelligent Mechatronics (AIM), July 3-7, 2017, Munich
%D 2017
%K adaptive based ceramics, control controllable crystal devices, direct electrochromic facade films, glass glazed glazing glazing, heat intelligent liquid materials, mechanism, optical optimisation, optimization, performance properties protection, self-adjusting smart sobek solar sunlight sunlight, survey, system system, systems, thermochromic transfer, units, visual windows,
%P 916--920
%R 10.1109/AIM.2017.8014135
%T Potential of origami-based shell elements as next-generation envelope components
%X Building envelopes manage several crucial functions,
including structural, thermal, hygric and aesthetic functions.
Classic fac¸ade concepts usually work with static elements like glass, metal or composite panels that primarily provide protection against the elements, and an additional layer of active systems that manage dynamic tasks like light protection or thermal regulation. Kinematic shell elements offer new ways to incorporate multiple dynamic functionalities into cladding
elements, and thus can help to generate new active, efficient and
aesthetic envelopes. We will introduce the concept of origami-inspired
multifunctional shell elements and discuss potential
applications.
@inproceedings{klett_potential_2017,
abstract = {Building envelopes manage several crucial functions,
including structural, thermal, hygric and aesthetic functions.
Classic fac¸ade concepts usually work with static elements like glass, metal or composite panels that primarily provide protection against the elements, and an additional layer of active systems that manage dynamic tasks like light protection or thermal regulation. Kinematic shell elements offer new ways to incorporate multiple dynamic functionalities into cladding
elements, and thus can help to generate new active, efficient and
aesthetic envelopes. We will introduce the concept of origami-inspired
multifunctional shell elements and discuss potential
applications.},
added-at = {2023-11-27T15:10:57.000+0100},
author = {Klett, Yves and Middendorf, Peter and Sobek, Werner and Haase, Walter and Heidingsfeld, Michael},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/20dfb045213232a2162921e36d01a9aa6/jmueller},
booktitle = {2017 {IEEE} {International} {Conference} on {Advanced} {Intelligent} {Mechatronics} ({AIM}), {July} 3-7, 2017, {Munich}},
doi = {10.1109/AIM.2017.8014135},
interhash = {01f845c3c121cf815ea4a02f5fee1662},
intrahash = {0dfb045213232a2162921e36d01a9aa6},
keywords = {adaptive based ceramics, control controllable crystal devices, direct electrochromic facade films, glass glazed glazing glazing, heat intelligent liquid materials, mechanism, optical optimisation, optimization, performance properties protection, self-adjusting smart sobek solar sunlight sunlight, survey, system system, systems, thermochromic transfer, units, visual windows,},
pages = {916--920},
timestamp = {2023-11-27T15:10:57.000+0100},
title = {Potential of origami-based shell elements as next-generation envelope components},
year = 2017
}