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Izabela Hager
Izabela Hager
Chair of Building Materials Engineering, Cracow University of Technology, PhD, DSc, associate
Zweryfikowany adres z pk.edu.pl - Strona główna
Tytuł
Cytowane przez
Cytowane przez
Rok
3D Printing of Buildings and Building Components as the Future of Sustainable Construction?
I. Hager, A. Golonka, R. Putanowicz
Procedia Engineering 151, Pages 292-299, 2016
6732016
Behaviour of cement concrete at high temperature
I Hager
Bulletin of the Polish Academy of Sciences: Technical Sciences, 2013
5562013
Comportement à haute température des bétons à haute performance–évolution des principales propriétés mécaniques
I Gaweska-Hager
These de doctorat, Ecole Nationale des Ponts et Chaussées, 2004
182*2004
Colour Change in Heated Concrete
I Hager
Fire Technology, 1-14, 2013
1792013
Fly-ash based geopolymer mortar for high-temperature application – Effect of slag addition
I Hager, M Sitarz, K Mróz
Journal of Cleaner Production 128168, 2021
1322021
Material solutions for passive fire protection of buildings and structures and their performances testing
Katarzyna Mróz, Izabela Hager, Kinga Korniejenko
Procedia Engineering 151, Pages 284-291, 2016
1022016
Post-fire assessment of mechanical properties of concrete with the use of the impact-echo method
K Krzemień, I Hager
Construction and Building Materials 96, 155-163, 2015
832015
The influence of aggregate type on the physical and mechanical properties of high-performance concrete subjected to high temperature
I Hager, T Tracz, J Śliwiński, K Krzemień
FIRE AND MATERIALS, 2015
762015
Parametrical study of transient thermal strain of ordinary and high performance concrete
JC Mindeguia, I Hager, P Pimienta, H Carré, C La Borderie
Cement and Concrete Research 48, 40-52, 2013
692013
Evolution of Mechanical Properties with Time of Fly‐Ash‐Based Geopolymer Mortars under the Effect of Granulated Ground Blast Furnace Slag Addition
M Sitarz, I Hager, M Choińska
Energies 13 (1135), 2020
482020
Mechanical behaviour of HPC at high temperature
P Pimienta, I Hager
Proceedings of the 6th International Symposium on Utilisation of High …, 2002
462002
Assessment of concrete susceptibility to fire spalling: A report on the state-of-the-art in testing procedures
K Krzemień, I. Hager
Procedia Engineering 108, 285 – 292, 2015
392015
Rheology and Mechanical Properties of Fly Ash-Based Geopolymer Mortars with Ground Granulated Blast Furnace Slag Addition
M Sitarz, M Urban, I Hager
Energies 13 (2639), https://doi.org/10.3390/en13102639, 2020
372020
Mechanical properties of HPC at high temperatures
I Hager, P Pimienta
Proc. Int. Workshop fib Task Group, Fire Design of Concrete Structures: What …, 2004
362004
Effect of Cement Type on the Mechanical Behavior and Permeability of Concrete Subjected to High Temperatures
I Hager, T Tomasz, M Choińska, K Mróz
Materials 12 (https://doi.org/10.3390/ma12183021), 1-14, 2019
292019
Physical properties and Behaviour of high-Performance Concrete at high Temperature
P Pimienta, RJ McNamee, JC Mindeguia
RILEM State-of-the-Art Reports, 2019
272019
Influence of elevated temperature on selected properties of high performance concrete modified with the addition of polypropylene fibres/Wpływ wysokiej temperatury nawybrane …
I Hager, T Tracz
Cement Wapno Beton 1, 3-10, 2009
27*2009
Metody oceny stanu betonu w konstrukcji po pożarze / Methods for assessing the state of concrete in fire damaged structures
I Hager
CEMENT WAPNO BETON 4, 168-178, 2009
27*2009
The impact of the amount and length of fibrillated polypropylene fibres on the properties of HPC exposed to high temperature
I Hager, T Tracz
Archives of Civil Engineering 56 (1), 57-68, 2010
262010
Role of Polypropylene Fibres in Concrete Spalling Risk Mitigation in Fire and Test Methods of Fibres Effectiveness Evaluation
I Hager, M Katarzyna
Materials 12 (https://doi.org/10.3390/ma12233869), 1-20, 2019
242019
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