Posts Tagged: tu munich
Asymptotic Geodesic Hybrid Timber Gridshell
Type: Peer-Reviewed Conference PaperTitle: Asymptotic Geodesic Hybrid Timber GridshellYear: 2023Authors: Eike Schling, Zongshuai Wan, Hui Wang, Pierluigi D’AcuntoPublished in: Advances in Architectural Geometry 2023. Stuttgart, pp. 97-110Available: October 2023DOI: https://doi.org/10.1515/9783111162683-008Office: University of Hong Kong Abstract This paper presents a strategy to design and
Asymptotic Geodesic Hybrid Timber Gridshell
Type: Peer-Reviewed Conference PaperTitle: Asymptotic Geodesic Hybrid Timber GridshellYear: 2023Authors: Eike Schling, Zongshuai Wan, Hui Wang, Pierluigi D’AcuntoPublished in: Advances in Architectural Geometry 2023. Stuttgart, pp. 97-110Available: October 2023DOI: https://doi.org/10.1515/9783111162683-008Office: University of Hong Kong Abstract This paper presents a strategy to design and
Baunetz Campus
Type: Online PublicationTitle: Gitterschalen mal einfachYear: 2023Authors: Johannes Medebach, Eike SchlingPublished in: Baunetz CampusAvailable: January, 2023www: https://www.baunetz-campus.de/news/asymptotic-geodesic-timber-vault-gitterschalen-mal-einfach-8117275Office: University of Hong Kong, Technical University of Munich Materialersparnis, Stabilität und die Ausbildung von großen Spannweiten kennzeichnen Gitterschalen. Die räumliche Krümmung solcher Konstruktionen macht es möglich.
Baunetz Campus
Type: Online PublicationTitle: Gitterschalen mal einfachYear: 2023Authors: Johannes Medebach, Eike SchlingPublished in: Baunetz CampusAvailable: January, 2023www: https://www.baunetz-campus.de/news/asymptotic-geodesic-timber-vault-gitterschalen-mal-einfach-8117275Office: University of Hong Kong, Technical University of Munich Materialersparnis, Stabilität und die Ausbildung von großen Spannweiten kennzeichnen Gitterschalen. Die räumliche Krümmung solcher Konstruktionen macht es möglich.
Ressourcenzentrum München
Type: MA Design ThesisYear: Summer 2022Student: Sebastian HoyerSupervisor: Eike Schling, Pierluigi D’Acunto, Stephan BirkOffice: Technical University of Munich In the summer of 2022, Sebastian Hoyer, created his Master’s Thesis at the Technical University of Munich. His work was supervised by
Ressourcenzentrum München
Type: MA Design ThesisYear: Summer 2022Student: Sebastian HoyerSupervisor: Eike Schling, Pierluigi D’Acunto, Stephan BirkOffice: Technical University of Munich In the summer of 2022, Sebastian Hoyer, created his Master’s Thesis at the Technical University of Munich. His work was supervised by
Asymptotic Geodesic Timber Vault – Construction
Type: Elastic Timber GridshellLocation: Munich, GermanyYear: 2022Status: ConstructionPrincipal Investigators: Eike Schling, Zongshuai WanOffice: The University of Hong Kong | HKUPartners: Technical University of Munich | TUMChair of Structural Design Prof. Pierluigi D’Acunto, Julian Trummer, Jonas SchikoreDesiré Agostini, Frederic Chovghi, Gabriele Felici, Josef
Asymptotic Geodesic Timber Vault – Construction
Type: Elastic Timber GridshellLocation: Munich, GermanyYear: 2022Status: ConstructionPrincipal Investigators: Eike Schling, Zongshuai WanOffice: The University of Hong Kong | HKUPartners: Technical University of Munich | TUMChair of Structural Design Prof. Pierluigi D’Acunto, Julian Trummer, Jonas SchikoreDesiré Agostini, Frederic Chovghi, Gabriele Felici, Josef
Asymptotic Geodesic Gridshell: Design Phase
Type: Elastic Timber GridshellLocation: Munich, GermanyYear: 2022Status: DesignPrincipal Investigators: Eike Schling, Zongshuai WanOffice: The University of Hong Kong | HKU This research project combines new methods from applied geometry, computational architecture, and structural design. We design webs of asymptotic and geodesic
Asymptotic Geodesic Gridshell: Design Phase
Type: Elastic Timber GridshellLocation: Munich, GermanyYear: 2022Status: DesignPrincipal Investigators: Eike Schling, Zongshuai WanOffice: The University of Hong Kong | HKU This research project combines new methods from applied geometry, computational architecture, and structural design. We design webs of asymptotic and geodesic
PMQ Exhibition – Kinetic Grid Structures
14 September – 5 October 2021HKU Architecture GalleryS503 – PMQ – 35 Aberdeen St. – Central Welcome to the website of Kinetic Grid Structures, the interactive exhibition at PMQ, Hong Kong. The exhibition introduces research from the University of Hong
PMQ Exhibition – Kinetic Grid Structures
14 September – 5 October 2021HKU Architecture GalleryS503 – PMQ – 35 Aberdeen St. – Central Welcome to the website of Kinetic Grid Structures, the interactive exhibition at PMQ, Hong Kong. The exhibition introduces research from the University of Hong
Curved Folding
Type: Structural Research Year: 2015 Team: Eike Schling, Donald Otterson Office: Technische Universität München, Chair of Structural Design, Prof. Dr.-Ing. Rainer Barthel
Curved Folding
Type: Structural Research Year: 2015 Team: Eike Schling, Donald Otterson Office: Technische Universität München, Chair of Structural Design, Prof. Dr.-Ing. Rainer Barthel
Experimental Structures, Transformation
Type: Publication Year: 2015 Studio: Eike Schling Editor: Katharina Wenninger, Eike Schling Published: LT, Chair of Structural Design, Technische Universität München, Prof. Dr.-Ing. Rainer Barthel ISBN: 978-3-938660-32-4
Experimental Structures, Transformation
Type: Publication Year: 2015 Studio: Eike Schling Editor: Katharina Wenninger, Eike Schling Published: LT, Chair of Structural Design, Technische Universität München, Prof. Dr.-Ing. Rainer Barthel ISBN: 978-3-938660-32-4
Experimental Structures, Modular Surface
Type: Publication Year: 2014 Studio: Eike Schling Editor: Florian Muhr, Eike Schling Published: LT, Chair of Structural Design, Technische Universität München, Prof. Dr.-Ing. Rainer Barthel ISBN: 978-3-938660-31-7
Experimental Structures, Modular Surface
Type: Publication Year: 2014 Studio: Eike Schling Editor: Florian Muhr, Eike Schling Published: LT, Chair of Structural Design, Technische Universität München, Prof. Dr.-Ing. Rainer Barthel ISBN: 978-3-938660-31-7
Experimental Structures, Modular Surface
Type: Design Studio Name: Experimental Structures, Modular Surface Year: 2014, Master Supervisor: Eike Schling Office: Technische Universität München, Chair of Structural Design, Prof. Dr.-Ing. Rainer Barthel Team: David Walsh, Dorian Zank, Michal Markusek, Miroslava Denina, Quirin Mühlbauer, Sebastian Huth, Vitaly Entin
Experimental Structures, Modular Surface
Type: Design Studio Name: Experimental Structures, Modular Surface Year: 2014, Master Supervisor: Eike Schling Office: Technische Universität München, Chair of Structural Design, Prof. Dr.-Ing. Rainer Barthel Team: David Walsh, Dorian Zank, Michal Markusek, Miroslava Denina, Quirin Mühlbauer, Sebastian Huth, Vitaly Entin
Stadion in Krakau
Type: Publication Year: 2013 Studio: Eike Schling, David Kosdruy Editor: Eike Schling, Carolina Weber Published: LT, Chair of Structural Design, Technische Universität München, Prof. Dr.-Ing. Rainer Barthel ISBN: 978-3-938660-15-5
Stadion in Krakau
Type: Publication Year: 2013 Studio: Eike Schling, David Kosdruy Editor: Eike Schling, Carolina Weber Published: LT, Chair of Structural Design, Technische Universität München, Prof. Dr.-Ing. Rainer Barthel ISBN: 978-3-938660-15-5
Stadium in Krakow
Type: Arena Location: Krakow, Poland Year: 2008 Status: Design Team: Eike Schling, David Kosdruy Office: TU Munich, Chair of Structural Design, Prof. Dr. Rainer Barthel Awards: 1st Prize, National Steel Construction Award 2008 1st Prize, Pininfarina Design Award 2008 Honorable Mention, German Architect
Stadium in Krakow
Type: Arena Location: Krakow, Poland Year: 2008 Status: Design Team: Eike Schling, David Kosdruy Office: TU Munich, Chair of Structural Design, Prof. Dr. Rainer Barthel Awards: 1st Prize, National Steel Construction Award 2008 1st Prize, Pininfarina Design Award 2008 Honorable Mention, German Architect
Eike Schling 