Add to ORKGAn important issue in advanced analysis of reinforced concrete structures exposed to fire is to determine the response of structural elements (cross-sections) to the effect of high temperature. The unsteady heat flow results in a nonlinear temperature distribution. In practical structural calculations performed by simplified computer programs the average temperature value and the appropriate temperature gradient are used. This paper presents substitute values of these parameters and detailed analysis of nonlinear temperature distribution in 20, 25, 30 cm thick reinforced concrete slabs exposed to one-sided standard fire
The article represents the behaviour of reinforced concrete and its components (concrete and reinfor...
The objective of this study is to simulate the behavior of reinforced concrete beams in fire situat...
Abstract—Reinforced concrete frames are one of most popular structures used in the world, but the re...
Structural engineers are in need of analytical methods to assess the performance of Reinforced Concr...
Numerical approach using the finite element method has been used to determine the mechanical resis...
To assess the post-fire or residual strength of fire-damaged reinforced concrete (RC) members, the m...
Structural fire design represents one important aspect of the design of reinforced concrete buildin...
The use of prescribed solutions for fire design has allowed engineers to simply provide an assembly...
Reinforced concrete structures with complex inner geometry under the effect of high temperatures con...
A numerical procedure for the thermal analysis of RC slabs at elevated temperatures is the subject ...
Methods for calculating the fire resistance of steel-reinforced concrete slabs made using profiled s...
The fire resistance of reinforced concrete elements can be determined by simple isotherm methods or ...
Methods for calculating the fire resistance of steel-reinforced concrete slabs made using profiled s...
In the last few decades, fires caused serious damage in civil engineering, especially in the high-ri...
Maintaining structural stability is an integral component of building fire safety. Stability must be...
The article represents the behaviour of reinforced concrete and its components (concrete and reinfor...
The objective of this study is to simulate the behavior of reinforced concrete beams in fire situat...
Abstract—Reinforced concrete frames are one of most popular structures used in the world, but the re...
Structural engineers are in need of analytical methods to assess the performance of Reinforced Concr...
Numerical approach using the finite element method has been used to determine the mechanical resis...
To assess the post-fire or residual strength of fire-damaged reinforced concrete (RC) members, the m...
Structural fire design represents one important aspect of the design of reinforced concrete buildin...
The use of prescribed solutions for fire design has allowed engineers to simply provide an assembly...
Reinforced concrete structures with complex inner geometry under the effect of high temperatures con...
A numerical procedure for the thermal analysis of RC slabs at elevated temperatures is the subject ...
Methods for calculating the fire resistance of steel-reinforced concrete slabs made using profiled s...
The fire resistance of reinforced concrete elements can be determined by simple isotherm methods or ...
Methods for calculating the fire resistance of steel-reinforced concrete slabs made using profiled s...
In the last few decades, fires caused serious damage in civil engineering, especially in the high-ri...
Maintaining structural stability is an integral component of building fire safety. Stability must be...
The article represents the behaviour of reinforced concrete and its components (concrete and reinfor...
The objective of this study is to simulate the behavior of reinforced concrete beams in fire situat...
Abstract—Reinforced concrete frames are one of most popular structures used in the world, but the re...