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Radek Štefan
Radek Štefan
CTU in Prague, Faculty of Civil Engineering
在 fsv.cvut.cz 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
Hygro-thermo-mechanical analysis of spalling in concrete walls at high temperatures as a moving boundary problem
M Beneš, R Štefan
International Journal of Heat and Mass Transfer 85, 110-134, 2015
492015
Experimental investigation of the compressive strength of normal-strength air-entrained concrete at high temperatures
J Holan, J Novak, P Müller, R Štefan
Construction and Building Materials 248, 118662, 2020
442020
Numerical investigation of slender reinforced concrete and steel-concrete composite columns at normal and high temperatures using sectional analysis and moment-curvature approach
R Štefan, J Sura, J Procházka, A Kohoutková, F Wald
Engineering Structures 190, 285-305, 2019
232019
Transport Processes in Concrete at High Temperatures: Mathematical Modelling and Engineering Applications with Focus on Concrete Spalling
R Štefan
CTU in Prague, 2015
22*2015
Analysis of coupled transport phenomena in concrete at elevated temperatures
M Beneš, R Štefan, J Zeman
Applied Mathematics and Computation 219 (13), 7262-7274, 2013
222013
Thermal, spalling, and mechanical behaviour of various types of cementitious composites exposed to fire: Experimental and numerical analysis
R Štefan, M Foglar, J Fladr, K Horníková, J Holan
Construction and Building Materials 262, 119676, 2020
162020
Global weak solutions for coupled transport processes in concrete walls at high temperatures
M Beneš, R Štefan
ZAMM‐Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte …, 2013
132013
Navrhování betonových a zděných konstrukcí na účinky požáru
J Procházka, R Štefan, J Vašková
České vysoké učení technické, 2010
132010
Experimental investigation of physical, thermal, hygral and mechanical properties of cementitious composites at high temperatures
K Horníková, L Scheinherrova, R Štefan, M Foglar
Construction and Building Materials 255, 119244, 2020
82020
10.19: The steel and fibre‐reinforced concrete circular hollow section composite column exposed to fire
T Illia, W František, N Josef, S Radek, K Alena
ce/papers 1 (2-3), 2678-2687, 2017
82017
Analysis of fire resistance of concrete structural members based on different fire models: An illustrative example of the slab panel assessment
M Benýšek, R Štefan, J Procházka
Solid State Phenomena 292, 173-182, 2019
62019
TempAnalysis–Computer Program for Temperature Analysis of Cross Sections Exposed to Fire [software online]
R Štefan, J Procházka
Prague: CTU in Prague, Faculty of Civil Engineering, 2009
62009
Air-entrainment as an alternative to polypropylene fibers and its effect on the compressive strength of concrete at high temperatures
J Holan, J Novák, R Štefan
IOP Conference Series: Materials Science and Engineering 596 (1), 012032, 2019
52019
Heat transfer in hybrid fibre reinforced concrete-steel composite column exposed to a gas-fired radiant heater
R Štefan, J Procházka, J Novák, J Fládr, F Wald, A Kohoutková, ...
IOP Conference Series: Materials Science and Engineering 246 (1), 012050, 2017
52017
Nonlinear analysis of reinforced and composite columns in fire
J Navrátil
Frattura ed Integrità Strutturale 11 (39), 72-87, 2017
52017
On coupled heat transport and water flow in partially frozen variably saturated porous media
M Beneš, L Krupička, R Štefan
Applied Mathematical Modelling 39 (21), 6580-6598, 2015
52015
Feasibility study of a prestressed-concrete containment vessel for a novel GFR nuclear reactor
J Holan, P Bílý, R Štefan, P Vácha
Engineering Structures 286, 116119, 2023
32023
Effect of fire model parameter variability on determination of fire resistance of concrete structural members
M Benýšek, R Štefan, J Procházka
Solid State Phenomena 309, 208-215, 2020
32020
Modelling of hygro-thermal processes in steel-concrete composite columns exposed to high temperatures
R Štefan, J Procházka
Solid State Phenomena 249, 246-252, 2016
32016
Beton vystavený vysokým teplotám
R Štefan
ČVUT v Praze, 90, 2020
22020
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