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CE : Structural fire Engineering

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Presentation on theme: "CE : Structural fire Engineering"— Presentation transcript:

1 CE 891-605: Structural fire Engineering
SAFIR- Computer Program Two Case Studies Prof. Kodur V. & Dwaikat M. Dept. of Civil and Env. Enginerring Michigan State University CE 808 Structural Fire Engineering

2 Problem 1 Thermal Analysis of reinforced concrete beam.
Problem Definition Reinforced concrete beam Symmetric about the Y-axis ISO standard fire from three sides Steel ratio = 2% Concrete cover = 30 mm 400 mm 300 mm CE 808 Structural Fire Engineering

3 CE 808 Structural Fire Engineering
Input File Geometrical data and discretizing Using the symmetry about the vertical axis, half the section is discritized as shown. 162 nodes (9X18) 136 elements (8X17) 400 mm 150 mm CE 808 Structural Fire Engineering

4 CE 808 Structural Fire Engineering
Input File Material Properties and boundary conditions Two materials were used, steel and concrete The black area represents the steel reinforcement which is assumed to be uniformly distributed The fire side is denoted by ‘1’ CE 808 Structural Fire Engineering

5 CE 808 Structural Fire Engineering
Input File Time of exposure and time increment Time of exposure = 3600 sec ( 1 hour) Time increment = 20 sec Printed time increment = 60 sec CE 808 Structural Fire Engineering

6 CE 808 Structural Fire Engineering
Obtained results Temperature distribution after 30 min of exposure CE 808 Structural Fire Engineering

7 CE 808 Structural Fire Engineering
Obtained Results Temperature distribution after 30 min of exposure to user fire CE 808 Structural Fire Engineering

8 Problem 2 Structural Analysis of the Reinforced concrete beam
Problem Definition Simply supported beam. Thermal analysis is performed in problem 1. fy = 500 MPa f’c = 25 MPa 40 kN/m 4 m CE 808 Structural Fire Engineering

9 CE 808 Structural Fire Engineering
Input File Geometrical data and discretizing 21 nodes 10 elements (3 nodes per element) CE 808 Structural Fire Engineering

10 CE 808 Structural Fire Engineering
Input File Material Properties and boundary conditions Two materials were used, steel and concrete. Simply supported beam. Distributed load of 20 kN/m (half the total loading due to symmetry) CE 808 Structural Fire Engineering

11 CE 808 Structural Fire Engineering
Input File Time of exposure and time increment Time of exposure = 3600 sec ( 1 hour) Time increment = 5 sec Printed time increment = 5 sec CE 808 Structural Fire Engineering

12 CE 808 Structural Fire Engineering
Obtained Results CE 808 Structural Fire Engineering


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