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Möhl","Götz T. Gresser","Jan Knippers" ], "authors": [ {"first" : "Florian Alexander", "last" : "Jonas"}, {"first" : "Larissa", "last" : "Born"}, {"first" : "C.", "last" : "Möhl"}, {"first" : "Götz T.", "last" : "Gresser"}, {"first" : "Jan", "last" : "Knippers"} ], "abstract": "Within the collaborative research center Transregio 141 \u2018Biological Design and Integrative Structures. Analysis, Simulation and Implementation in Architecture\u2019, the authors work in an interdisciplinary team composed of biologists, structural engineers, and textile engineers developing novel technical branchings as structural elements for architecture inspired by branchings in nature.\r\nBranchings are common in structures of plants and construction and have to fulfill structural demands in both fields. As resource efficiency is a vital factor allowing plants to resist competitive stress, beneficial load-bearing principles found in plants might, in an abstracted manner, also improve technical support constructions. To discover these principles, the biomechanics of selected plant branchings were\r\ninvestigated by FE-simulations.\r\nThe observed principle of continuous fiber courses from the stem into the branch yields stiff and strong connections also favored in artificial joints. The key challenge is to produce technical branchings with a continuous fiber arrangement. This is enabled by a newly developed braiding process for branched structures. The design of the branched large-scale demonstrator at the Museum of Natural History in\r\nStuttgart for the exhibition \u2018baubionik\u2019 (construction-bionics) reveals the potential for future architectural applications with individually variable knot geometries. 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A.", "last" : "Brebbia"} ], "volume": "Vol. 138","pages": "469 \u2013 477", "language" : "eng", "bibtexKey": "lienhard2010elastic" } , { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/25c9f896b6429558f5147fb381a12c681/tobiasschwinn", "tags" : [ "(IAAC),","(ICD),","(UAV),","2019","9","Advanced","Architecture","Ars","Austria,","Autodesk","Biologically","Building","Catalonia","Collectives,","Computational","Construction","Construction,","Design","Drawing","Electronica,","Engineering","Fabrication","Filament","Forceaware","Francisco,","Harvard","ICD/ITKE","Inspired","Institute","Linz,","Logotel,","Maria","Milan","Milan,","Minibuilders","MoRFES\\_01","MoRFES\\_02,","Mobile","On-Site","Pavilion,","Pier","Postcity,","Research","Robot","Robotic","San","Spatial","Structural","Structures","Structures,","Stuttgart,","System","University","University,","Week,","Wyss","Yablonina,","aerial","and","for","hub,","intcdc","of","peer","project,","technology","unmanned","vehicle" ], "intraHash" : "5c9f896b6429558f5147fb381a12c681", "interHash" : "6fc5278ce41b69f1783b8ebb65035c7d", "label" : "Distributed Fabrication: Cooperative Making with Larger Groups of Smaller Machines", "user" : "tobiasschwinn", "description" : "", "date" : "2019-10-13 01:08:39", "changeDate" : "2019-11-22 11:11:00", "count" : 3, "pub-type": "article", "journal": "Architectural Design", "year": "2019", "url": "https://onlinelibrary.wiley.com/doi/abs/10.1002/ad.2413", "author": [ "Maria Yablonina","Achim Menges" ], "authors": [ {"first" : "Maria", "last" : "Yablonina"}, {"first" : "Achim", "last" : "Menges"} ], "volume": "89","number": "2","pages": "62--69","abstract": "The University of Stuttgart's Institute for Computational Design and Construction is pioneering research into fabrication systems that involve multiple mobile robots performing discrete tasks in tandem. PhD candidate Maria Yablonina and founding director Achim Menges set out the benefits of their co-design strategy where machine, process and object are considered codependently \u2013 as demonstrated by their experiments with thread-like materials.", "file" : "Yablonina and Menges - 2019 - Distributed Fabrication Cooperative Making with L.pdf:/Users/Tobias/Zotero/storage/MJFTID6C/Yablonina and Menges - 2019 - Distributed Fabrication Cooperative Making with L.pdf:application/pdf", "doi" : "10.1002/ad.2413", "bibtexKey": "yablonina_distributed_2019" } ] }