Texoversum Innovation Center
Texoversum Innovation Center
Manfred Sauer, Sabrina Bergmann
TEAM ALLMANNWAPPNER COMPETITION
Philipp Vogeley (Lead), Valerio Calavetta (Project Manager), Timm Traxler
TEAM MENGES SCHEFFLER ARCHITEKTEN REALIZATION
Moritz Münzenmaier, Jiangpeng Chen, Eva Menges, Achim Menges (Lead)
TEAM JAN KNIPPERS INGENIEURE
Riccardo La Magna
TEAM MENGES SCHEFFLER ARCHITEKTEN COMPETITION
Niccolò Dambrosio, Christoph Zechmeister, Achim Menges (Lead)
STRUCTURAL PLANNING BUILDINGS
bwp Burggraf + Reiminger GmbH
STRUCTURAL PLANNING SECONDARY FACADE
Jan Knippers Ingenieure0
Design: Glück Landschaftsarchitektur GmbH
OBJECT PLANNING SECONDARY FACADE
Menges Scheffler Architekten PartG mbB
Timm Traxler, Juae Kim, Maurizio Maggi, Simon Köppl, Roswitha Allmann
The teaching, research, and innovation center for cross-cutting technologies in the textile industry known as the Texoversum was developed and constructed as part of the new campus expansion plan of the Reutlingen University of Applied Sciences. It promises to become a powerful and highly expressive component of the built environment at the university.
Textile construction is the theme of the design both in function, with a weaving of different disciplines and activities on the interior, and in form, with the representational woven exterior that makes the building so distinct.
The first building of its kind with a façade of woven carbon and glass fiber tiles, the building stands as a symbol of the future potential of innovative fiber-based materials and textile techniques. Using a robotic winding process, the individual tiles are tailor-made for their intended purpose.
Each tile is designed on the basis of five templates and arranged to follow the path of the sun, creating a unique, multi-layered appearance.
All of the tiles are self-supporting and do not require a separate load-bearing frame. The staggered arrangement of the tiles provides unobstructed views of the surroundings.
In addition to meeting the demands for sun and fall protection as well as other practical functions, the façade is also aesthetically and symbolically engaging.
The central elements of transparency and interconnectedness visible in the architectural design continue in the structural design.
Inside, the Texoversum has an open, transparent, split-level layout. The stories are staggered at half-level intervals and woven together visually in the atrium, which connects the various sections with one another while also forming a spatial continuum that culminates in a spacious roof terrace.
There is a distinctly industrial character to the interior design with finished as well as unfinished concrete features and technical ceilings with exposed ductwork.
The open-plan layout provides a collaborative work environment for a variety of user groups as well as a stimulating platform for knowledge sharing.
The use of color inside accentuates the flexible, neutral nature of the structure and connects the split levels spatially.
A continuous color gradient shows the promise of color-printed textiles and references historic Gobelin tapestries.
Whereas the woven façade with its intentional openings offers views of the surroundings from the inside, the cutouts give viewers outside an informal, postcard-shaped glimpse of the working world within the Texoversum.