Towards Modular Natural Fiber-Reinforced Polymer Architecture. Proceedings of the 40th Annual Conference of the Association of Computer Aided Design in Architecture (ACADIA), (1):564 - 573, ACADIA, 2020. [PUMA: 2020 architecture baszynski costalonga cutajar dahy fiber-reinforced hoven itke lightweight modular natural polymer] URL
Tailored Lace : Moldless Fabrication of 3D Bio-Composite Structures through an Integrative Design and Fabrication Process. Applied Sciences, (11)22:10989, MDPI, 2021. [PUMA: 2021 3D architecture baszynski bio-composite biomat craft dahy design digital fabrication integrative itke lace lehrecke moldless process structure tailored tucker]
Structural Optimization through biomimetic-inspired material-specific Application of plant-based Natural Fiber-Reinforced Polymer Composites (NFRP). Polymers, Basel, Dec 19, 2021. [PUMA: biomat dahy fiber natural topology 2021 reinforced carosella structure high-performance itke from:petraheim uhlig placement architectural material-appropriate grisin polymer sustainable tailored biomimetics lightweight NFRP middendorf flax design optimization composites sippach biocomposites architecture]
Towards sustainable buildings with free-form geometries: Development and Application of flexible NFRP in load-bearing structures. In M. T. H. Sultan, M. Shuky A. Majid, A. Iskandar A., M. R. M. Jamir, and N. Saba (Eds.), Biocomposite Materials: Design and Mechanical Properties Characterization, 31-43, Springer Nature, Singapore, February 2021. [PUMA: biomat load-bearing dahy development sustainable natural biocomposite nfrp free-form fibre-reinforced 2021 application geometies flexible itke material from:petraheim structures architecture]
Natural Fibre-Reinforced Polymer Composites (NFRP) Fabricated from Lignocellulosic Fibres for Future Sustainable Architectural Applications, Case Studies: Segmented-Shell Construction, Acoustic Panels, and Furniture. Sensors, (19)3:738, Basel, Feb 12, 2019. [PUMA: biomat dahy absorption segmented acoustic shell sustainability from:petraheim sustainable Itke lignocellulosic-based post-fabrication for functionality multi NFRP design molding extrusion furniture composites biocomposites resin-bath architecture]
Materials as a Design Tool’ Design Philosophy Applied in Three Innovative Research Pavilions Out of Sustainable Building Materials with Controlled End-Of-Life Scenarios. Buildings, (9)3:64, Mar 13, 2019. [PUMA: DfD biomat bending-active green dahy biomimetic life-cycle sustainable segmented building scenarios shell digital materials itke from:petraheim end-of-life structures fabrication architecture]
Design and Fabrication of two 1:1 Architectural Demonstrators based on Biocomposites from Annually Renewable Resources displaying a Future Vision for Sustainable Architecture. In Anne Burry, Jenny Sabin, Bob Sheil, and Marilena Skavara (Eds.), Making Resilent Architecture - FABRICATE 2020, 66-73, UCL Press, London, 2020. [PUMA: architectural architecture baszynski biocomposites biomat dahy demonstrators design fabrication from:petraheim itke petrs renewable resources sustainable]
Product Design Aspects Of Agro-Fibres Biocomposites For Architectural Applications. SB13 (Sustainable Building Conference)-TU Graz, Conference Proceeding, 730-740, Graz, Austria, 25-28 Sept 2013. [PUMA: 2013 agro-fibers application architectural architecture aspect biocomposite biomat dahy design from:petraheim itke knippers product]
Natural fibres as ecologic flame retardants in green agro-plastic building products?. Internationales Symposium: naro.tech Werkstoffe aus Nachwachsende Rohstoffen, Erfurt, 2014. [PUMA: biomat dahy ecologic product natural building knippers retardant agro-plastic biobased itke from:petraheim 2014 flame architecture fibre]
Towards more innovative recycling and reuse Applications in Architecture and Urban Contexts. ecocity world summit. Innovation Track, Abu Dhabi, 2015. [PUMA: biomat dahy reuse application innovative itke from:petraheim 2015 recycling urban context architecture]
Biocomposites from Anually Renewable Resources Displying Vision of Future Sustainable Architecure: Design and fabrication of two 1:1 demonstrators.. In Jane Burry, Jenny Sabin, Bob Sheil, and Marilena Skavara (Eds.), Fabricate 2020, 66 -73, UCL Press, London, 2020. [PUMA: biomat dahy sustainable petrs baszynski 2020 itke from:petraheim renewable biocomposites fabrication fabricate architecture demonstrator]
Biopolymers and Biocomposites Based on Agricultural Residues. In Dirk Hebel, and Felix Heisel (Eds.), Cultivated Building Materials: Industrialized Natural Resources for Architecture and Construction., 116 – 123, Birkhäuser, Basel, 2017. [PUMA: 2017 architecture biocomposites biomat bioplymers dahy from:petraheim itke knippers material]
User´s Participation in the Architectural Work – Special Study of Self building Issue. Scientific Bulletin of Faculty of Engineering, Ain Shams University, Kairo, Ägypten, 2007. [PUMA: biomat participation dahy work building 2007 itke from:petraheim architectural user architecture self]
Natural fibres as flame-retardants?. Bioplastics Magazine, 02:18-20, 2014. [PUMA: biomat dahy natural flame-retardant biobased itke material from:petraheim 2014 architecture fibre]
Influence of the 3Rs on Modern Approaches in Sustainable Architecture. The International Journal of Environmental Sustainability, (Vol. 8)Issue 4:43-53, Common Ground Publishing, 2013. [PUMA: biomat 3Rs dahy sustainable itke from:petraheim 2013 architecture influence peer-reviewed]
Biocomposite materials based on annual natural fibres and biopolymers – Design, fabrication and costumized applications in architecture. Construction and Building Materials, 147:212 – 220, elsevier, August 2017. [PUMA: 2017 annual application architecture based biocomposite biomat biopolymer costumized dahy design fabrication fibre from:petraheim itke material natural]
Evaluation of the Current Environmental Codes and their Influence on Modern Approaches of Building and Construction Field. 3rd Conference of the Environmental Services Association, Kairo. Ägypten, 2009. [PUMA: environmental biomat approach code dahy influence 2009 bilding itke modern from:petraheim evaluation construction architecture]
Agricultural residues applications in contemporary building industry. ICSA 2013- Structures and Architecture, Guimaraes, Portugal, 24-26 July 2013. [PUMA: 2013 agricultural application architecture biomat building contemporary dahy from:petraheim industry itke knippers recycling residues]
Cereal Crop Residues Biocomposites Applications in Building Industry. naro.tech 9. Internationales Symposium „Werkstoffe aus nachwachsenden Rohstoffen", Erfurt, 2012. [PUMA: 2012 application architecture biobased biocomposite biomat building cereal crop dahy from:petraheim industry itke recycling residues]
Rice Straw Fiber Biocomposites Potentials in Contemporary Architecture. ICONARCH-I (International Congress of Architecture-I), Turkey, 2012. [PUMA: 2012 architecture biocomposite biomat contemporary dahy fiber fibre from:petraheim itke knippers potential rice straw]