Overview
Background
Dr Felix Wiesner is an Assistant Professor at the University of British Columbia and an Honorary Fellow in the School of Civil Engineering at The University of Queensland and works as part of the National Centre for Timber Durability and Design Life. He was appointed at UQ as a Lecturer in Timber Engineering in 2019 to lead research projects focused on enhancing the fire performance of timber using treatments and modification techniques. His background is in structural fire engineering and the fire safety of timber structures, specifically engineered timber structures. His field of expertise are the critical evaluation of load bearing capacity of building elements in fire and the assessment of safety implications arising from the use of engineered timber as structural members in tall buildings or structures with extraordinary architectural features.
Dr Wiesner completed his Master of Engineering in Structural and Fire Safety Engineering at The University of Edinburgh from 2010 to 2015 before he successfully completed his doctoral studies on the structural behaviour of cross-laminated timber in fire between 2015 and 2019. During his undergraduate and postgraduate work, he closely worked with Arup on multiple projects regarding the fire safety of timber buildings and the effect of localised fires in large open spaces. He actively participated in the European COST Action FP 1404 for the Fire Safe Use of Bio-Based Building Products between 2016 and 2019, representing the UK as a Management Committee member. He significantly contributed to the success of the Fires in Tall Timber Structures: Large-scale Tests in Support of Tall Timber Construction project at the BRE in the UK and also worked as a member of the global Fire Safe Use of Wood research collaboration.
Availability
- Dr Felix Wiesner is:
- Not available for supervision
- Media expert
Fields of research
Qualifications
- Masters (Coursework) of Engineering, University of Edinburgh
- Doctor of Philosophy, University of Edinburgh
- Postgraduate Diploma in Data Science, Harvard University
Research interests
-
Flammability of native timber species
-
Effect of treatment and modification methods on the ignition and extinction characteristics of timber products
Research impacts
Dr Wiesner's research works towards the safe use of timber in buildings and infrastructure. This research is of importance to enable a better utilisation of timber resources in Australia and thereby reduce the carbon footprint of the construction industry and foster a homegrown circular economy of sustainable building products. The research of treatment and modification methods as well as the targeted selection of species is critical to safely build in bushfire affected areas. This work is closely coordinated with the National Centre for Timber Durability and Design Life to ensure that the design life of timber structures can be optimised and quantified with respect to fire safety and durability against attack from fungi, termites and other destructive agents.
One of Dr Wiesner's key areas of expertise is the design of bespoke experiments and novel use of technology to illuminate fire safety problems. During his time at the University of Edinburgh he developed a robot for the fast and reliable drilling of fine holes into timber to enable better instrumentation. This technology was subsequently exported and improved to be used at The University of Queensland. In addition he has consistently advertised the use of image analysis for the analysis and control of fire safety experiments, including his contribution to an award winning new methodology for the assessment of intumescent paint expansion in fires.
Works
Search Professor Felix Wiesner’s works on UQ eSpace
2025
Journal Article
Large-scale compartment fires to develop a self-extinction design framework for mass timber-Part 2: Results, analysis and design implications
Wiesner, Felix, Xu, Hangyu, Lange, David, Gupta, Vinny, Pope, Ian, Torero, José L. and Hidalgo, Juan P. (2025). Large-scale compartment fires to develop a self-extinction design framework for mass timber-Part 2: Results, analysis and design implications. Fire Safety Journal, 152 104346, 104346. doi: 10.1016/j.firesaf.2025.104346
2024
Journal Article
Deactivation of chromated copper arsenate as a catalyst in smouldering of wood
Wu, Wenxuan, Wiesner, Felix, Hidalgo, Juan P., Morrell, Jeffrey J. and Yermán, Luis (2024). Deactivation of chromated copper arsenate as a catalyst in smouldering of wood. Journal of Analytical and Applied Pyrolysis, 183 106824, 106824. doi: 10.1016/j.jaap.2024.106824
2024
Journal Article
A taxonomy of concurrent upward flame spread models and sources of uncertainty
Hittini, Waseem, Wiesner, Felix, Lange, David and Hidalgo, Juan P. (2024). A taxonomy of concurrent upward flame spread models and sources of uncertainty. International Journal of Thermal Sciences, 204 109218, 1-14. doi: 10.1016/j.ijthermalsci.2024.109218
2024
Journal Article
Application of microscale methods to study the heat-induced delamination in engineered wood products bonded with one-component polyurethane adhesives
Čolić, A., Wiesner, F., Hopkin, D., Spearpoint, M., Wu, W. and Bisby, L. (2024). Application of microscale methods to study the heat-induced delamination in engineered wood products bonded with one-component polyurethane adhesives. International Journal of Adhesion and Adhesives, 135 103834, 103834. doi: 10.1016/j.ijadhadh.2024.103834
2024
Conference Publication
A method to study ignition of inverted combustible surfaces
Madden, Joshua, Kriel, Machelle, Wiesner, Felix, Wu, Wenxuan, Hilditch, Ryan, Ervine, Adam and Lange, David (2024). A method to study ignition of inverted combustible surfaces. 4th European Symposium on Fire Safety Science, Barcelona Spain, Oct 09-11, 2024. BRISTOL: Institute of Physics. doi: 10.1088/1742-6596/2885/1/012008
2023
Journal Article
Fully-developed compartment fire dynamics in large-scale mass timber compartments
Pope, Ian, Gupta, Vinny, Xu, Hangyu, Wiesner, Felix, Lange, David, Torero, José L. and Hidalgo, Juan P. (2023). Fully-developed compartment fire dynamics in large-scale mass timber compartments. Fire Safety Journal, 141 104022, 1-10. doi: 10.1016/j.firesaf.2023.104022
2023
Journal Article
Experimental study on the factors affecting smouldering behaviour of CCA-treated wood
Wu, Wenxuan, Yermán, Luis, Hidalgo, Juan P., Morrell, Jeffrey J. and Wiesner, Felix (2023). Experimental study on the factors affecting smouldering behaviour of CCA-treated wood. Fire Safety Journal, 141 104003, 104003. doi: 10.1016/j.firesaf.2023.104003
2023
Journal Article
Bushfire performance of native Australian wood species
Wiesner, Felix, McGiveron, Brett, Liu, Tongming, Hidalgo, Juan and Morrell, Jeffrey J. (2023). Bushfire performance of native Australian wood species. Fire Safety Journal, 140 103884, 103884. doi: 10.1016/j.firesaf.2023.103884
2023
Conference Publication
A novel PIV seeding method for velocity measurements within a reactive boundary layer
Hittini, Waseem, Basnayake, Asanka, Lange, David, Carrascal Tirado, Jeronimo, Hidalgo, Juan and Wiesner, Felix (2023). A novel PIV seeding method for velocity measurements within a reactive boundary layer. 15th International Symposium on Particle Image Velocimetry, San Diego, CA USA, 19-21 May 2023. San Diego, CA USA: International Symposium on Particle Image Velocimetry.
2023
Conference Publication
Exploring the influence of heating conditions in the charring profile of bare timber and timber protected with a thin intumescent coating
Spyridakis, Stavros, Carrascal, Jeronimo, Wiesner, Felix, Barber, David and Maluk, Cristian (2023). Exploring the influence of heating conditions in the charring profile of bare timber and timber protected with a thin intumescent coating. World Conference on Timber Engineering (WCTE 2023), Oslo, Norway, 19-22 June 2023. As, Norway: World Conference on Timber Engineering (WCTE 2023). doi: 10.52202/069179-0221
2023
Conference Publication
Experimental investigation of the relationship between timber species and smouldering
Wu, Wenxuan, Yermán, Luis, Hidalgo, Juan P., Morrell, Jeffrey and Wiesner, Felix (2023). Experimental investigation of the relationship between timber species and smouldering. Experimental investigation of the relationship between timber species and smouldering, Oslo, Norway, 19-22 June. Oslo, Norway: World Conference on Timber Engineering (WCTE 2023). doi: 10.52202/069179-0225
2022
Other Outputs
Fire engineering of mass timber structures
Wiesner, Felix (2022, 11 05). Fire engineering of mass timber structures SEABC Newsletter 8-9.
2022
Journal Article
Fire performance of timber: review for use in wildland-urban interfaces
Winandy, Jerrold E., Wiesner, Felix, Hassan, Babar and Morrell, Jeffrey J. (2022). Fire performance of timber: review for use in wildland-urban interfaces. Holzforschung, 76 (8), 679-698. doi: 10.1515/hf-2022-0038
2022
Journal Article
Factors influencing the fire dynamics in open-plan compartments with an exposed timber ceiling
Nothard, Sam, Lange, David, Hidalgo, Juan P., Gupta, Vinny, McLaggan, Martyn S., Wiesner, Felix and Torero, Jose L. (2022). Factors influencing the fire dynamics in open-plan compartments with an exposed timber ceiling. Fire Safety Journal, 129 103564, 103564. doi: 10.1016/j.firesaf.2022.103564
2022
Journal Article
Structural fire engineering considerations for cross-laminated timber walls
Wiesner, Felix, Hadden, Rory, Deeny, Susan and Bisby, Luke (2022). Structural fire engineering considerations for cross-laminated timber walls. Construction and Building Materials, 323 126605, 1-15. doi: 10.1016/j.conbuildmat.2022.126605
2022
Journal Article
Large-scale compartment fires to develop a self-extinction design framework for mass timber—Part 1: Literature review and methodology
Xu, Hangyu, Pope, Ian, Gupta, Vinny, Cadena, Jaime, Carrascal, Jeronimo, Lange, David, McLaggan, Martyn S., Mendez, Julian, Osorio, Andrés, Solarte, Angela, Soriguer, Diana, Torero, Jose L., Wiesner, Felix, Zaben, Abdulrahman and Hidalgo, Juan P. (2022). Large-scale compartment fires to develop a self-extinction design framework for mass timber—Part 1: Literature review and methodology. Fire Safety Journal, 128 103523, 103523. doi: 10.1016/j.firesaf.2022.103523
2021
Journal Article
Influence of ply configuration and adhesive type on cross-laminated timber in flexure at elevated temperatures
Wiesner, Felix, Deeny, Susan and Bisby, Luke A. (2021). Influence of ply configuration and adhesive type on cross-laminated timber in flexure at elevated temperatures. Fire Safety Journal, 120 103073, 1-8. doi: 10.1016/j.firesaf.2020.103073
2021
Journal Article
The effect of adhesive type and ply number on the compressive strength retention of CLT at elevated temperatures
Wiesner, Felix, Thomson, Daniel and Bisby, Luke (2021). The effect of adhesive type and ply number on the compressive strength retention of CLT at elevated temperatures. Construction and Building Materials, 266 121156, 121156. doi: 10.1016/j.conbuildmat.2020.121156
2020
Conference Publication
Robust circle tracking for deflection measurements in structural fire experiments
Wiesner, Felix and Bisby, Luke (2020). Robust circle tracking for deflection measurements in structural fire experiments. 11th International Conference on Structures in Fire (SiF2020), Online, 30 November - 2 December 2020. Brisbane, QLD Australia: The University of Queensland. doi: 10.14264/a8296a2
2020
Journal Article
Structural capacity of one-way spanning large-scale cross-laminated timber slabs in standard and natural fires
Wiesner, Felix, Bartlett, Alastair, Mohaine, Siyimane, Robert, Fabienne, McNamee, Robert, Mindeguia, Jean-Christophe and Bisby, Luke (2020). Structural capacity of one-way spanning large-scale cross-laminated timber slabs in standard and natural fires. Fire Technology, 57 (1), 291-311. doi: 10.1007/s10694-020-01003-y
Supervision
Availability
- Dr Felix Wiesner is:
- Not available for supervision
Supervision history
Current supervision
-
Doctor Philosophy
Framework to model the rate of external fire spread rates in facades consisting of combustible cladding
Principal Advisor
Other advisors: Dr Juan Hidalgo Medina, Associate Professor David Lange
-
Doctor Philosophy
Assessment of self-sustained smouldering in preservative-treated timber
Associate Advisor
Other advisors: Dr Juan Hidalgo Medina, Dr Luis Yerman
-
Doctor Philosophy
Development of novel preservative-treated timbers and their performance on self-sustaining smouldering
Associate Advisor
Other advisors: Dr Luis Yerman
-
Doctor Philosophy
Mass Timber Behaviour in Fire
Associate Advisor
Other advisors: Mr David Morrisset, Associate Professor David Lange
-
Doctor Philosophy
Assessment of smouldering in engineered and CCA treated timber products
Associate Advisor
Other advisors: Dr Juan Hidalgo Medina, Dr Luis Yerman
-
Doctor Philosophy
Thin Intumescent Coatings on Mass Timber in Fire: Fundamentals and Performance
Associate Advisor
Other advisors: Mr Jeronimo Carrascal Tirado, Dr Anwar Orabi
Completed supervision
-
2023
Doctor Philosophy
Solid-phase temperature analysis and correction for multi-scale fire experimentation
Associate Advisor
Other advisors: Dr Cristian Maluk, Dr Juan Hidalgo Medina, Associate Professor Jiwon Kim
-
2023
Doctor Philosophy
A Methodology for Preliminary Designs of Structural Elements in Tall Timber Buildings
Associate Advisor
Other advisors: Associate Professor Matthew Mason
Media
Enquiries
Contact Dr Felix Wiesner directly for media enquiries about:
- compartment fires
- engineered timber
- fire resistance
- fire safety
- structural engineering
- structural fire safety
- timber
Need help?
For help with finding experts, story ideas and media enquiries, contact our Media team: