PROGRAM

Program of the IWCF2025

Click HERE to download the IWCF2025′ program

18th September 2025 | DAY 1
8:00REGISTRATION
9:00
10:15
OPENING DAY 1, WELCOME by RECTOR of CUT & KEYNOTE LECTURE
IWCF00
πŸ”Š Pierre Pimienta
KEYNOTE LECTURE
Understanding Concrete under Fire: Experimental Approaches from Material Behaviour to Full-Scale Applications
10:15
11:00
S1: Fire-Induced Concrete Spalling: Mechanisms and Evaluation
IWCF49
πŸ”Š Patrick Bischof
Fire Risk Assessment in Standards using RILEM TC 256-SPF Screening Tests
IWCF44
πŸ”Š Robert McNamee
The Role of Restraint and Load in Fire-Induced Spalling of Concrete: Observations from Experimental Testing
IWCF19
πŸ”Š Benedikt Weber
Concrete Spalling Reframed: A New Theory Built on Known Mechanisms
11:00Coffee Break
11:30
13:00
S2: Fire-Induced Concrete Spalling: Assessment and Mitigation
IWCF41
πŸ”Š Aminu Muhammed
High-Temperature Microstructural Evaluation of Fibred Concrete using X-ray Tomography and Digital Image Analysis
IWCF31
πŸ”Š Roberto Felicetti
On Fracture Behaviour of Moderately Heated High-Performance Concrete
IWCF16
πŸ”Š Mitsuo Ozawa
Fire Spalling Behavior of Ultra-High Performance Fiber-Reinforced Concrete with Fteel Fiber and Jute Fiber
IWCF40
πŸ”Š Fabienne Robert
The Benefits of Incorporating Bio-Sourced Fibres for the Fire Spalling Behaviour of Concrete
IWCF35
πŸ”Š Łukasz JΓ³zefczyk
Reducing Fire-Induced Spalling in High-Strength Concrete: Experimental Findings from Fire Tests
IWCF21
πŸ”Š Ahmad Eiz Eddin
Fire Testing of Various Protection Measures to Prevent Spalling of CFRP-Reinforced Concrete
13:00Lunch
14:00
15:30
S3: Fire-Induced Concrete Spalling: Experiments and Modelling
IWCF27
πŸ”Š Patrick Bischof
Library of Experiments on Fire-Induced Concrete Spalling
IWCF32
πŸ”Š Abbas Abubaker
Sample Size Effects on Fire-Induced Concrete Spalling
IWCF43 – moved for Day 2
πŸ”Š Giacomo Torelli
Prediction of Pore Pressure in Heated Concrete: Stochastic Analysis and Driving Parameters
IWCF18
πŸ”Š Stefano Dal Pont
Combining Quantitative Imaging and Numerical Modeling: an Insight Into Concrete at High Temperature
IWCF30
πŸ”Š Hitesh Lakhani
Implications of Using Stress-Strain Relationship with Implicit Transient Strain for Concrete at Elevated Temperature
IWCF34
πŸ”Š Joshua Mounier
Residual Mechanical Behaviour of a Reference Mortar Exposed to High Temperatures for THCM Modelling Under Fire
15:30Coffee Break
16:00
17:00
S4: Fire-Induced Concrete Spalling in Environmentally Optimized Concrete
IWCF29
πŸ”Š Patrick Bischof
Fire Performance of Swiss Buildings Incorporate Concrete with Recycled Aggregates
IWCF12
πŸ”Š Jochen Reiners
Investigations into the Explosive Spalling of Environmentally Optimised Concretes in the Event of Fire
IWCF20
πŸ”Š Tim Pittrich
Analysis of Thermohydraulic Spalling in Blended Cement Concrete
IWCF25
πŸ”Š Asieh Jalaeeyan
Experimental Investigations About the Fire Performance of Concrete with High Recycled Aggregate Content
17:00Discussion and Closing Remarks19:00Banquet

19th September 2025 | DAY 2

9:00
REGISTRATION19th September 2025 | DAY 2
09:30OPENING DAY 2
9:30
11:00
S5: Sustainable Materials at High Temperature
IWCF53
πŸ”Š Mateusz Sitarz
Foamed Geopolymer Coatings as Sustainable Thermal Protection for Concrete Elements
IWCF52
πŸ”Š Sara GoΕ‚Δ™biowska
High-Temperature Behaviour of Concrete with Low-Emission Binders: Current Knowledge and Research Gaps
IWCF46
πŸ”Š Wendpanga S.A. Nana
Construction Decarbonization via Low Embodied Carbon Concrete and Optimized Sections: Impacts on Structural Fire Design and Recommendations
IWCF48
πŸ”Š Thierry LobΓ©
Thermal Degradation and Microstructural Evolution of LC3 Mortars with Varying Clinker Content
IWCF36
πŸ”Š Pierre Pimienta
Fire Performance Assessment of Concretes Made with Non-Standardized Binders – A French National Framework

πŸ”Š Mariusz Raszewski
From Heat Treatment to Fire Resistance – Innovation by SECO/WARWICK
11:00Coffee Break
11:30
13:00
S6: Structural Performance in Fire: Testing and Modelling
IWCF37
πŸ”Š Maria Celeste Blasone
Fire Resistance of Wall Elements Made of Wood-Chip Lightweight Concrete
IWCF13
πŸ”Š Tim Neugum
Application of the Substructure Method to Assess the Fire Resistance of Thermally Restrained Columns
IWCF50
πŸ”Š Silvio Renard
Experimental Investigation on the Burnout Resistance of a Reinforced Concrete Column Subjected to A Natural Compartment Fire
IWCF17
πŸ”Š Magda Kosmal
Analysis of the Structure and Selected Properties of Autoclaved Aerated Concrete in the Context of Fire Resistance Testing
IWCF14
πŸ”Š Peter Kočman
Assessing Eurocode Material Laws for Post-Tensioned Concrete Beams in Fire through Finite Element Modelling
IWCF28
πŸ”Š Max Rottmann
Toward a Hybrid Coupled Simulation Approach using the Phase Field Method for Predicting the Behavior of Concrete Structure under Real Fire
13:00LUNCH
14:00
15:00
S7: Concrete Properties at High Temperature
IWCF23
πŸ”Š Taku Koyama
Relationship Between Dehydration and Shrinkage Rate of Hardened Cement Paste under High Temperature Conditions
IWCF42
πŸ”Š Ye Li
Strength Recovery of High-Performance Concrete Material and Column After Fire Exposure
IWCF45
πŸ”Š Wojciech SzymkuΔ‡
Effect of Specimen Size and Shape on Residual Compressive Strength of Concrete after Fire Exposure
IWCF39
πŸ”Š Armando La Scala
Experimental Assessment of Polypropylene Fiber Effectiveness in Self-Compacting Concrete Fire Resistance: A Systematic Investigation
15:00Coffee Break
15:30
16:45
S8: Post-Fire Assessment and Protection of Concrete Structures
IWCF11
πŸ”Š Christian Paglia
The Post-Fire Investigation of a Reinforced Concrete Structure: a Garage Case Study
IWCF15
πŸ”Š Umesh Kumar Sharma
Post-Fire Structural Assessment of an Industrial Facility in Rajkot, India: a Case Study
IWCF24
πŸ”Š Robert Kowalski
Application of the Sclerometric Method to Concrete Damage Assessment in Post-Fire Structures
IWCF43
πŸ”Š Giacomo Torelli
IWCF33
πŸ”Š JoΓ£o Paulo Correia Rodrigues
AI-Based Analysis of Concrete Structures in Case of Fire moved from Day 1

Prediction of Pore Pressure in Heated Concrete: Stochastic Analysis and Driving Parameters
IWCF51
πŸ”Š Goulven Quiblier
Material Solutions for Passive Fire Protection of Tunnel Linings
16:45Discussion and Closing Remarks