Data processing, analysis, and evaluation methods for co-design of coreless filament-wound building systems. Journal of Computational Design and Engineering, (10)4:1460-1478, 2023. [PUMA: faserverbund hügle 2023 knippers engineering analysis forster itke processing menges guo filament-wound co-design coreless methods data gil mindermann zechmeister building gresser middendorf kannenberg systems balangé evaluation schwieger bischoff]
FlexFlax Stool: Validation of Moldless Fabrication of Complex Spatial Forms of Natural Fiber-Reinforced Polymer (NFRP) Structures through an Integrative Approach of Tailored Fiber Placement and Coreless Filament Winding Techniques. Applied Sciences, (10)9:3278, Mai 2020. [PUMA: 2020 baszynski complex coreless costalonga cutajar dahy fabrication fiber fibre-reinforced flexflax forms hoven interactive itke moldless natural nfrp placement polymer spatial stool structure tailored validation winding]
Integrative Structural Design of Nonstandard Building Systems: Bridging the Gap Between Research and Industry. Technology Architecture + Design, (7:2):244-261, Taylor & Francis, 16.11.2023. [PUMA: 2023 building cfw coreless design digital fabrication gil industry integrative itke knippers research structural structure systems winding]
Investigation of the Fabrication Suitability, Structural Performance, and Sustainability of Natural Fibers in Coreless Filament Winding. Materials, (15)9:3260, MDPI, Mai 2022. [PUMA: Filament Performance Structural gil mindermann gresser knippers 2022 Natural Fibers Fabrication Winding the itke from:petraheim of Sustainability Coreless Investigation Suitability]
Concurrent, computational design and modelling of structural, coreless-wound building components. Automation in Construction, (151):104889, Juli 2023. [PUMA: FEA Finite Robotic workflow Digital-physical 2023 knippers analysis Carbon modelling filament Feedback-based Co-design itke from:petraheim winding fabrication (FEA) menges fibre gil zechmeister Interdisciplinary design element Coreless computational Computational] 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, Februar 2023. [PUMA: coreless Structural gil perez 2023 building engineering non-standard systems design Integrative itke from:petraheim structures coreless-wound architecture]
A design methodology for fiber layup optimization of filament wound structural components. Structures, (38):1125-1136, ELSEVIER SCI LTD, April 2022. [PUMA: Finite layup fiber knippers 2022 engineering analysis filament Fiber-reinforced itke serhan from:petraheim winding (FEA) Lamination parameters methodology components guo buckling polymer gil wound design optimization structural (FRP) element Coreless architecture]
Implementation of Fiber-Optical Sensors into Coreless Filament-Wound Composite Structures. Composite Structures, (290):115558, 2022. [PUMA: coreless gil mindermann gresser knippers 2022 engineering filament winding, structural integration, itke from:petraheim composite sensor fiber-optical sensor, kamimura behavior] URL
Integrative material and structural design methods for natural fibres filament-wound composite structures: The LivMatS pavilion. Material & Design, (217)ELSEVIER SCI LTD, Mai 2022. [PUMA: Robotic LivMatS Gil knippers pavilion 2022 engineering Material filament characterisation itke from:petraheim Mechanical winding testing fabrication Flax Freiburg guo filament-wound fibres Fibre-polymer integrative design structural Integrative composites Coreless architecture]
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 from:petraheim 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, 22.05.2022. [PUMA: 2022 Knippers Magna analysis architecture biennale building coreless design element engineering fabricated fibre filament finite from:petraheim früh gil hybrid integrative itke maison structural system timber-fibre venice winding]
Integrative structural design of a timber-fibre hybrid building system fabricated through coreless filament winding: Maison Fibre. 2022. [PUMA: 2022 building coreless design fabricated filament from:petraheim früh gil hybrid integrative itke knippers magna structural system timber-fibre]
Structural design assisted by testing for modular coreless filament-wound composites: The BUGA Fibre Pavilion. Construction and Building Materials, (301)September 2021. [PUMA: Finite modular knippers pavilion engineering 2021 analysis Carbon filament itke from:petraheim Mechanical winding testing (FEA) fibre buga filament-wound structurestructural koslowski coreless Fibre-polymer Lightweight rongen perez heilbronn dome design composite composites element Buckling architecture]
Material Monitoring of a Composite Dome Pavilion Made by Robotic Coreless Filament Winding. Materials, (14):5509, September 2021. [PUMA: imaging knippers 2021 filament Pavilion structure gubetini BUGA itke from:petraheim winding microscopy Fiber coreless rongen scanning mindermann gresser heilbronn robotic biomimetics lightweight on-site dome inspection thermal electron architecture]
Filigree Shell Slabs: Material and Fabrication-aware Shape Optimisation for CFRP Coreless- wound Slab Components. In O. Baverel, C. Douthe, R. Mesnil, C. Mueller, H. Pottman, und T. Tachi (Hrsg.), Advances in Architectural Geometry 2020, 244-263., 2021. [PUMA: 2021 aag architecture bodea cfrp christie components coreless coreless-wound fabrication fabrication-aware filigree from:petraheim itke knippers material menges optimisation shape shell slab solly]
Structural optimization of coreless filament wound components connection system through orientation of anchor points in the winding frames. In C. Lazaro, K.-U. Bletzinger, und E. Onate (Hrsg.), Proceedings of IASS Annual Symposia 2019: Form and Force, (2019):1381--1388, International Association for Shell and Spatial Structures (IASS), 2019. [PUMA: components dambrosio coreless rongen frames gil knippers filament points system wound optimization structural itke from:petraheim anchor winding connection menges orientation]
Coreless Winding and Assembled Core – Novel fabrication approaches for FRP based components in building construction. Building and Costruction Materials, (1)ELSEVIER SCI LTD, 2016. [PUMA: 2016 building components construction coreless fabrication from:petraheim frp itke knippers magna waimer winding]
Coreless Winding – A Novel Fabrication Approach for FRP Based Components in Building Construction. Book of Abstracts of the 7th International Conference on FRP Composites in Civil Engiineering (CICE 2014), 199, Vancouver, Canada,, 2014. [PUMA: based approach frp waimer coreless magna building knippers component itke from:petraheim winding 2014 construction fabrication architecture]
Coreless Filament Winding: From Academia to Practice.. In Bob Sheil, Mette Ramsgard Thomsen, Martin Tamke, und Sean Hanna (Hrsg.), Design Transactions: Rethinking Information Modelling for a New Material Age., 114 - 121, UCL Press, London, 2020. [PUMA: dörstelmann frp coreless cfk knippers 2020 filament solly itke from:petraheim winding architecture]
ICD/ITKE Research Pavilion 2012: Coreless Filament Winding Based on Morphological Principles of Arthropd Exosceleton. AD Architectural Design, 237:49 – 53, September 2015. [PUMA: based morphological waimer schwinn coreless reichert magna knippers pavilion robotic filament research itke from:petraheim 2015 winding icd/itke principles arthropod menges architecture exosceleton]
ICD/ITKE Research Pavilion 2013: Modular Coreless Filament Winding Based on Beetle Elytra. AD Architectural Design, 237:54 – 59, Wiley, London, September 2015. [PUMA: based modular dörstelmann parascho biomimetic schwinn coreless knippers pavilion filament research beetle elytra itke from:petraheim 2015 prado winding icd/itke menges architecture]