@inproceedings{Schuetz,
  author    = {Sch{\"u}tz, Stephan},
  title     = {Folded Cardboard Sandwiches for Load-bearing Architectural Components},
  series = {WSBE17 Hong Kong - Conference Proceedings},
  booktitle = {WSBE17 Hong Kong - Conference Proceedings},
  publisher = {Construction Industry Council, Hong Kong Green Building Council Limited},
  address   = {Hong Kong},
  isbn      = {978-988-77943-0-1},
  doi       = {10.25643/bauhaus-universitaet.3805},
  url       = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20181029-38052},
  pages     = {8},
  abstract  = {The high resource demand of the building sector clearly indicates the need to search for alternative, renewable and energy-efficient materials. This work presents paper-laminated sandwich elements with a core of corrugated paperboard that can serve as architectural components with a load-bearing capacity after a linear folding process. Conventional methods either use paper tubes or glued layers of honeycomb panels. In contrast, the folded components are extremely lightweight, provide the material strength exactly where it is statically required and offer many possibilities for design variants. After removing stripes of the paper lamination, the sandwich can be folded in a linear way at this position. Without the resistance of the missing paper, the sandwich core can be easily compressed. The final angle of the folding correlates with the width of the removed paper stripe. As such, this angle can be described by a simple geometric equation. The geometrical basis for the production of folded sandwich elements was established and many profile types were generated such as triangular, square or rectangular shapes. The method allows the easy planning and fast production of components that can be used in the construction sector. A triangle profile was used to create a load-bearing frame as supporting structure for an experimental building. This first permanent building completely made of corrugated cardboard was evaluated in a two-year test to confirm the efficiency of the developed components. In addition to the frame shown in this paper, large-scale sandwich elements with a core of folded components can be used to fabricate lightweight ceilings and large-scale sandwich components. The method enables the efficient production of linearly folded cardboard elements which can replace normal wooden components like beams, pillars or frames and bring a fully recycled material in the context of architectural construction.},
  subject      = {Tragendes Teil},
  language  = {en}
}
@techreport{BonhagDeRosaBoettgerGynzRekowski,
  author    = {Bonhag-De Rosa, Katharina and Boettger, Till and Gynz-Rekowski, Christoph von},
  title     = {The "Stapelhaus": Experimental building project on the campus of the Bauhaus-Universit{\"a}t Weimar},
  doi       = {10.25643/bauhaus-universitaet.4113},
  url       = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20200325-41139},
  pages     = {49},
  abstract  = {The project is a cooperation between the bauhaus.ifex and MFPA Weimar and is intended to develop step by step as an experimental student village. Special focus is given to sustainability and construction using different building materials. For the construction of the first room module, CemCel was chosen as a new, lightweight and fibre-based building material.},
  subject      = {Architecture},
  language  = {en}
}
@article{Lutolli,
  author    = {Lutolli, Blerim},
  title     = {A Review of Domed Cities and Architecture: Past, Present and Future},
  series = {Future cities and environment},
  volume    = {2022},
  journal   = {Future cities and environment},
  number    = {Volume 8, issue 1},
  publisher = {Ubiquity Press Limited},
  address   = {London},
  doi       = {10.5334/fce.154},
  url       = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20221103-47335},
  pages     = {1 -- 9},
  abstract  = {The goal of architecture is changing in response to the expanding role of cities, rapid urbanization, and transformation under changing economic, environmental, social, and demographic factors. As cities increased in the early modern era, overcrowding, urbanization, and pollution conditions led reformers to consider the future shape of the cities. One of the most critical topics in contemporary architecture is the subject of the future concepts of living. In most cases, domed cities, as a future concept of living, are rarely considered, and they are used chiefly as "utopian" visions in the discourse of future ways of living. This paper highlights the reviews of domed cities to deepen the understanding of the idea in practice, like its approach in terms of architecture. The main aim of this paper is to provide a broad overview for domed cities in the face of pollution as one of the main concerns in many European cities. As a result, the significance of the reviews of the existing projects is focused on their conceptual quality. This review will pave the way for further studies in terms of future developments in the realm of domed cities. In this paper, the city of Celje, one of the most polluted cities in Slovenia, is taken as a case study for considering the concept of Dome incorporated due to the lack of accessible literature on the topic. This review's primary contribution is to allow architects to explore a broad spectrum of innovation by comparing today's achievable statuses against the possibilities generated by domed cities. As a result of this study, the concept of living under the Dome remains to be developed in theory and practice. The current challenging climatic situation will accelerate the evolution of these concepts, resulting in the formation of new typologies, which are a requirement for humanity.},
  subject      = {Architektur},
  language  = {en}
}