Nonlinear Analysis of Progressive Collapse of Reinforced Concrete (RC) Building by Different Kinds of Column Removal

Authors

  • Wenchen Ma Department of Civil and Environmental Engineering and Construction, University of Nevada

DOI:

https://doi.org/10.30564/frae.v3i1.1597

Abstract

Building collapse mostly can be caused by the loss of loading capacity in a primary structural component, resulting in the failure of surrounding elements, which in turn cause a failure propagation. Progressive collapses may be accidental, due to design deficiencies or errors, material failure or natural phenomenon (e.g. earthquakes) but it can be prevented by upgrade the concrete components’ material [1][2]. Well-engineered RC buildings generally have a good performance under normal loading conditions. However, faulty design, construction errors, material deterioration, and overloading are always occurred. When part of structure fails, the total load in the whole system will not disappear, which means the load will be redistributed unevenly to the adjacent part of structure. This phenomenon revealed that sustained high stresses in RC elements can lead to catastrophic collapse. Due to very few of papers did the research on the RC elements under high stress level sustained load, relevant experiments should be performed in this area. This paper gives the suggestions about how to apply the load in an experiment if researchers want to know the behavior of elements near to collapse especially focus on RC columns.

Keywords:

Progressive collapse of RC structure, Nonlinear analysis of RC building, RC behavior under high stress level

References

[1] V Farhangi and M. Karakouzian, (2020). “Effects of Fiber Reinforced Polymer Tubes Filled with Recycled Materials and Concrete on Structural Capacity of Pile Foundations.” Applied Sciences 2020 10 (5)

[2] Jia, L., et. al., (2019). “Rail Defect Detection Technology: A Review of the Current Methods and an Acoustic Based Method Proposed for High-Speed-Rail.” 2019 IRF Global R2T Conference. Las Vegas, NV.

[3] American Society of Civil Engineers (ASCE) 2010. “Minimum Design Loads for Buildings and Other Structures (ASCE 7-10), Reston, VA., USA 2010

[4] ACI Committee 318 (2014). “Building Code Requirements for Structural Concrete and Commentary (ACI 318-14).” American Concrete Institute, Farmington Hills, MI, 2014

[5] CSI Analysis Reference Manual For SAP2000, ETABS, SAFE and CSiBridge, Computer & Structures, Inc., Berkeley, CA, USA; 2016

[6] Chunyu Zhang, Wenchen Ma, (2019). “Effects of high temperature on residual punching strength of slab-column connections after cooling and enhanced post-punching load resistance.” Engineering Structures 2019; 199(15)

[7] Wenchen Ma. (2016). “Simulate initiation and formation of cracks and potholes”

[8] . Wenchen Ma. (2019). “Simulation of Temperature Effects on Concrete Residual Strength of theSlab-Column Connections.” Frontier Research of Architecture and Engineering 2019; Vol 2, No 4

[9] Jinrong Liu. (2014). ‘‘Progressive Collapse Analysis of Older Reinforced Concrete Flat Plate Buildings Using Marco Model.”

[10] Ryan W. Jenkins. (2015). “Improved procedures for the design of slender structural concrete columns.”

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Issue

Vol. 3 , Iss. 1 (January 2020)

Article Type

Research Paper

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