Publications

Indiana Courarie-Delage, Evgenia Spyridonos, und Hanaa Dahy. Delta IXI: Deployable Structure with Flax Fibre Pultruded Profiles for Architectural Applications—Case Studies in Furniture and Adaptive Facade Systems. Designs, Special Issue Sustainable Construction: Innovations in Design, Engineering, and the Circular Economy, (9)2mdpi, Basel, Switzerland, März 2025. [PUMA: biomat dahy natural profiles pultrusion itke threading fibre fibres sustainable methods lightweight courarie-delage adaptive systems deployable spyridonos 2025 structures biocomposites pultruded architecture]

Evgenia Spyridonos, Vanessa Costalonga, Jan Petrs, Gabriel Kerekes, Volker Schwieger, und Hanaa Dahy. Enhancing construction accuracy with biocomposites through 3D scanning methodology: Case studies applying Pultrusion, 3D Printing, and Tailored Fibre Placement. Case Studies in Construction Materials, (22)108296Elsevier, Juli 2025. [PUMA: biomat kerekes PrintingTailored Scanning dahy petrs costalonga 3D Placement itke Laser spyridonos 2025 Terrestrial construction Biocomposites Fibre schwieger Sustainable Pultrusion architecture]

Evgenia Spyridonos, und Hanaa Dahy. Strategies in construction and assembly for the LightPRO Shell: An active-bending structure employing flax fibre pultruded profiles for sustainable architecture. Structures, (72)108296Elsevier, Februar 2025. [PUMA: biomat Architecture Spyridonos Structures Lightweight Active-Bending Fibres Dahy Natural Pultruded Profiles itke 2025 Biocomposites Fibre Flax Sustainable Pultrusion]

Evgenia Spyridonos, Alexander Reiner, und Hanaa Dahy. Reciprocal Lightweight Structures with Natural Fiber Biocomposite Profiles through Computational Design and Case Studies Validation. Proceedings of the IASS 2024 Symposium, August 2024. [PUMA: biomat dahy natural biocomposite iass 2024 profiles lightweight pultrusion reiner design itke spyridonos structures pultruded fibrer computational fibre]

Evgenia Spyridonos, Yanan Guo, Marta Gil Pérez, und Hanaa Dahy. Geometrical and Structural Design Development of an Active-Bending Structure from Natural Fibre Pultruded Profiles: The LightPRO Shell. Developments in the Built Environment, (20):100577, Elsevier, Dezember 2024. [PUMA: biomat guo geometrical dahy development Spyridonos natural 2024 active-bending gil profiles lightweight structure structural itke biocomposites pultruded architecture fibre]

Evgenia Spyridonos, und Hanaa Dahy. Application of Natural Fibre Pultruded Profiles in Diverse Lightweight Structures and Architectural Scenarios. Architecture, Structures and Construction, (5)2Springer Nature Link, November 2024. [PUMA: biomat dahy natural 2024 lightweight structure resin bio-based deployable itke spyridonos pultruded architecture fibre]

Evgenia Spyridonos, Andreas Gerstner, Michael Nehmaier, und Hanaa Dahy. LeichtPRO-Profiles: Development and Validation of Novel Linear Biocomposite Structural Components Fabricated from Pultruded Natural Flax Fibres with Plant-Based Resin for Sustainable Architectural Applications. Material Research Express, (11):075308, IOP Publishing, Juli 2024. [PUMA: biomat components dahy gerstner biocomposite 2024 nehmaier naturl resin flax structural itke spyridonos pultruded plant-based architecture fibre]

Evgenia Spyridonos, Martin-Uwe Witt, Klaus Dippon, Markus Milwich, Götz T. Gresser, und Hanaa Dahy. Natural Fibre Pultruded Profiles: Illustration of Optimisation Processes to Develop High-Performance Biocomposites for Architectural and Structural Applications. Composites Part C: Open Access, (14):100492, Elsevier, Juli 2024. [PUMA: biomat dahy natural witt 2024 profiles optimization structural itke spyridonos biocomposites pultruded architectural fibre]

Mai Thi Nguyen, Daniela Solueva, Evgenia Spyridonos, und Hanaa Dahy. Mycomerge: Fabrication of Mycelium-Based Natural Fiber Reinforced Composites on a Rattan Framework. Biomimetics, (7)2:42, April 2022. [PUMA: biomat mycelium dahy fiber natural nfrp 2022 lightweight reinforced rattan framework nguyen itke solueva spyridonos composites polymers]

Markus Renner, Evgenia Spyridonos, und Hanaa Dahy. Tensegrity FlaxSeat: Exploring the Application of Unidirectional Natural Fiber Biocomposite Profiles in a Tensegrity Configuration as a Concept for Architectural Applications. In Biao Hu, und Antonio Caggiano (Hrsg.), Buildings, (14)8August 2024. [PUMA: fier biomat dahy natural biocomposite 2024 flax renner itke spyridonos tensegrity architecture] URL

Omar Abdelhady, Evgenia Spyridonos, und Hanaa Dahy. Bio-Modules: Mycelium-Based Composites Forming a Modular Interlocking System through a Computational Design towards Sustainable Architecture. Designs, (7)1:20, MDPI, 2023. [PUMA: modular biomat mycelium dahy sustainable 2023 design itke spyridonos composite abdelhady computational architecture]