Structural Performance and Nesting Efficiency of segmented, point-supported, slabs for co-designed timber architecture. Structures, (57):105260, Elsevier BV, November 2023. [PUMA: 2023 architecture co-design efficiency engineering itke krtschil nesting orozco performance point-supported segmented slabs structural timber] URL
Integrative Structural Design of Non-Standard Building Systems: Coreless Filament-Wound Structures as a Case Study.. Forschungsberichte aus dem Institut für Tragkonstruktionen und Konstruktives Entwerfen, Universität Stuttgart, (49):75, Institut für Tragkonstruktionen und Konstruktives Entwerfen, Universität Stuttgart, Stuttgart, February 2023. [PUMA: 2023 Integrative Structural architecture building coreless coreless-wound design engineering gil itke non-standard perez structures systems]
Structural development of a novel punctually supported timber building system for multi-storey construction. Journal of Building Engineering, (58):104972, 2022. [PUMA: 2022 amtsberg bechert building chen connections construction design development engineering itke knippers krtschil menges multi-storey orozco shah structural timber wagner]
Implementation of Fiber-Optical Sensors into Coreless Filament-Wound Composite Structures. Composite Structures, (290):115558, 2022. [PUMA: 2022 behavior composite coreless engineering fiber-optical filament gil gresser integration, itke kamimura knippers mindermann sensor sensor, structural winding,] URL
Integrative material and structural design methods for natural fibres filament-wound composite structures: The LivMatS pavilion. Material & Design, (217)ELSEVIER SCI LTD, May 2022. [PUMA: 2022 Coreless Fibre-polymer Flax Freiburg Gil Integrative LivMatS Material Mechanical Robotic architecture characterisation composites design engineering fabrication fibres filament filament-wound guo integrative itke knippers pavilion structural testing winding]
A design methodology for fiber layup optimization of filament wound structural components. Structures, (38):1125-1136, ELSEVIER SCI LTD, April 2022. [PUMA: (FEA) (FRP) 2022 Coreless Fiber-reinforced Finite Lamination analysis architecture buckling components design element engineering fiber filament gil guo itke knippers layup methodology optimization parameters polymer serhat structural winding wound]
Computational co-design framework for coreless wound fibre–polymer composite structures. Journal of Computational Design and Engineering, (9)2:310–329, April 2022. [PUMA: 2022 Balangé architecture bischoff collaborative composite computational coreless coreless-wound digital engineering evaluation fibre-polymer filament framework förster gienger gil gresser guo hügle itke kannenberg knippers menges middendorf minderman model object schwieger structural structures tarin winding workflow zechmeister]
Integrative structural design of a timber-fibre hybrid building system fabricated through coreless filament winding: Maison Fibre. Journal of Building Engineering, (49)ELSEVIER SCI LTD, May 22, 2022. [PUMA: 2022 Knippers Magna analysis architecture biennale building coreless design element engineering fabricated fibre filament finite früh gil hybrid integrative itke maison structural system timber-fibre venice winding]
Structural design assisted by testing for modular coreless filament-wound composites: The BUGA Fibre Pavilion. Construction and Building Materials, (301)September 2021. [PUMA: (FEA) 2021 Buckling Carbon Fibre-polymer Finite Lightweight Mechanical analysis architecture buga composite composites coreless design dome element engineering fibre filament filament-wound gil heilbronn itke knippers koslowski modular pavilion perez rongen structural structure testing winding]
Structural Optimization of Grid Shells based on Genetic Algorithms. In Jan Knippers (Eds.), Forschungsberichte aus dem Institut für Tragkonstruktionen und Konstruktives Entwerfen, (32)Stuttgart: Institut für Tragkonstruktionen und Konstruktives Entwerfen, ITKE, Stuttgart, Germany, 2012. [PUMA: 2012 algorithm architecture based dimcic diss dissertation engineering forschungsbericht from:petraheim genetic grid itke optimisation optimization shell structural]
Bending-Active Structures: Form-finding strategies using elastic deformation in static and kinetic systems and the structural potentials therein. In Jan Knippers (Eds.), Forschungsberichte aus dem Institut für Tragkonstruktionen und Konstruktives Entwerfen, (36)Stuttgart: Institut für Tragkonstruktionen und Konstruktives Entwerfen, ITKE, Stuttgart, Germany, 2014. [PUMA: 2014 architecture bending-active deformation diss dissertation elastic engineering form-finding forschungsbericht itke kinetic lienhard potential statc strategies strategy structural structure system using]
Timber Shell Structures: Form-finding and Structural Analysis of Actively Bent Grid Shells and Segmental Plate Shells. In Jan Knippers (Eds.), Forschungsberichte aus dem Institut für Tragkonstruktionen und Konstruktives Entwerfen, (42)Stuttgart: Institut für Tragkonstruktionen und Konstruktives Entwerfen, ITKE, Stuttgart, Germany, 2017. [PUMA: 2017 acttively analysis bent diss dissertation engineering form-finding forschungsbericht grid itke li plate segmental shell structural structure timber]
Nature-inspired structural optimization of freeform shells. ICSA 2013- Structures and Architecture, Guimaraes, Portugal, 24-26 July 2013. [PUMA: 2013 architecture engineering freeform itke knippers magna nature-inspired optimisation optimization shell structural waimer]
Monitoring and Structural Safety of FRP Bridges. In Department of Structural Engineering Ain Shams University Faculty of Engineering (Eds.), 13th International Conference on Structural and Geotechnical Engineering, Cairo – Egypt, 27-29 Dec. 2009. [PUMA: 2009 bridge engineering friedberg frp gabler itke knippers monitoring safety structural]
New Reinforcing and Structural Design with FRP. In Korea Remodeling Association (Eds.), Conference Proceedings of The 4th International Seminar of Remodeling Technology, 79 – 90, Seoul, September 2007. [PUMA: 2007 design engineering frp hwang itke park reinforcing structural]
The new developments of smart and lightweight structures with glass fiber reinforced polymer (GFRP) in architecture and structural engineering. POAR People & Architects, (113):82 -95, September 2005. [PUMA: 2005 architecture engineering fiber gfrp glass hub hwang itke knippers lightweight park polymer reinforced smart structural structure]