Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

video

Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

sound

Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

Persian Version

Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

View:

264
Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

Download:

247
Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

Cites:

Information Journal Paper

Title

IN-PLANE RIGIDITY OF LATERALLY LOADED COMPOSITE FLOOR SYSTEMS, A FINITE ELEMENT APPROACH

Pages

  161-181

Abstract

 The influence of the in-plane flexibility of COMPOSITE FLOOR SYSTEMs on the seismic response of the structures may become significant, particularly when considerable floor slab cracking and yielding are expected. As in recent years the use of COMPOSITE FLOOR SYSTEMs is increasing, in this study the lateral in-plane behavior of composite floor DIAPHRAGMs in steel structures is investigated through NUMERICAL SIMULATIONs. The structures considered in the study were two models of the prototype buildings, where the elastic and inelastic responses of the DIAPHRAGMs under lateral load are analyzed using 3-D finite element models and FEM linear and nonlinear structural analysis. It was found that under the SEISMIC LOAD specified in the code, the criterion of DIAPHRAGM rigidity is too small, so the COMPOSITE FLOOR SYSTEMs can be assumed as rigid body, however under lateral loads with higher amplitudes, by developing the cracks in the concrete slabs, nonlinear behavior and stiffness degradation of the DIAPHRAGMs might occur. The results showed that for both single story structures the ULTIMATE STRENGTH of the DIAPHRAGMs was very high about 20 to 33 times of the SEISMIC LOAD specified in Iran's seismic code, however the ULTIMATE STRENGTH of the second model, where the joists direction was perpendicular to the lateral load direction, was considerable showing a reduction about 50~60% compared to the ULTIMATE STRENGTH of the first model, where the joists direction was parallel to the lateral load direction. The comparisons between the numerical and previously obtained experimental results showed that FEM overestimates the DIAPHRAGM response in terms of stiffness and deformability, however conservatively estimates the DIAPHRAGMs strength.

Cites

  • No record.

    • References

  • No record.

    • Cite

    APA: Copy

    ZAHRAI, S.M., & SARKISSIAN, L.. (2015). IN-PLANE RIGIDITY OF LATERALLY LOADED COMPOSITE FLOOR SYSTEMS, A FINITE ELEMENT APPROACH. ASIAN JOURNAL OF CIVIL ENGINEERING (BUILDING AND HOUSING), 16(2), 161-181. SID. https://sid.ir/paper/299122/en

    Vancouver: Copy

    ZAHRAI S.M., SARKISSIAN L.. IN-PLANE RIGIDITY OF LATERALLY LOADED COMPOSITE FLOOR SYSTEMS, A FINITE ELEMENT APPROACH. ASIAN JOURNAL OF CIVIL ENGINEERING (BUILDING AND HOUSING)[Internet]. 2015;16(2):161-181. Available from: https://sid.ir/paper/299122/en

    IEEE: Copy

    S.M. ZAHRAI, and L. SARKISSIAN, “IN-PLANE RIGIDITY OF LATERALLY LOADED COMPOSITE FLOOR SYSTEMS, A FINITE ELEMENT APPROACH,” ASIAN JOURNAL OF CIVIL ENGINEERING (BUILDING AND HOUSING), vol. 16, no. 2, pp. 161–181, 2015, [Online]. Available: https://sid.ir/paper/299122/en

    Related Journal Papers

  • No record.

    • Related Seminar Papers

  • No record.

    • Related Plans

  • No record.

    • Recommended Workshops






    Move to top