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Analytical Study on the Effect of Corrosion to the Construction Performance

Year 2019, Volume: 4 Issue: 1, 11 - 20, 31.01.2019
https://doi.org/10.28978/nesciences.522364

Abstract

Corrosion is one of the most important factor to achieve in completing the service life of reinforced
concrete structures also cause significant losses in energy damping capacities of structures. In this
study, the reinforced concrete column designed in ½ geometrical scale was subjected to accelerated
corrosion test for 26.5 days under 1 ampere constant current. As a result of the experiment, weight
loss and strength reductions was obtained. Loss of strength in reinforcement due to corrosion
damage was obtained with experimental procedure. Loss of cross section and reduction of
compressive strength of concrete were obtained with empirical formulas in the literature. Thanks
to this data, 3 different scenarios applied on a sample building in Hatay province. Static pushover
analyzes of the sample building designed in accordance with the regulations were carried out with
Sap 2000 program under the specified corrosion scenarios. The load-displacement curves obtained
by the scenarios are compared with the curves of the reference building. As a result of the
comparisons, it was observed that corrosion damage caused significant loss in horizontal load
carrying capacity of the building. The corrosion scenarios show that corrosion in columns or beams
changes collapse modes of the structure.

References

  • Baradan, B., & Aydın, S. (2013). Betonun Durabilitesi (Dayanıklılık, Kalıcılık). Beton 2013 Hazır Beton Kongresi, 265-288.
  • Berke, N., Bentur, A., & Diamond, S. (2014). Steel corrosion in concrete: fundamentals and civil engineering practice. CRC Press.
  • Berto, L., Saetta, A., & Simioni, P. (2008). Nonlinear static analyses of RC frame structures: influence of corrosion on seismic response. Proceedings of the 8th WCCM8—5th ECCOMAS.
  • Cape M. (1999). Residual service-life assessment of existing R/C structures, MS thesis, Chalmers University of Technology, Goteborg (Sweden) and Milan University of Technology, Italy, Erasmus Program; p. 133.
  • CSI SAP 2000 V-19. (2013), Integrated Finite Element Analysis and Design of Structures Basic Analysis Reference Manual Computer and Structures Inc., Berkeley, California.
  • FEMA-356, (2000). Prestandard and commentary for seismic rehabilitation of buildings, Washington DC.
  • Yalciner, H., Sensoy, S., & Eren, O. (2012). Effect of corrosion damage on the performance level of a 25-year-old reinforced concrete building. Shock and Vibration, 19(5), 891-902.
  • Yalciner, H., Sensoy, S., & Eren, O. (2012). Time-dependent seismic performance assessment of a single-degree-of-freedom frame subject to corrosion. Engineering Failure Analysis, 19, 109-122.
  • Ma, Y., Che, Y., & Gong, J. (2012). Behavior of corrosion damaged circular reinforced concrete columns under cyclic loading. Construction and Building Materials, 29, 548-556.
  • Rodriguez J., and Andrade C. (2001). CONTECVET: a validated user’s manual for assessing the residual service life of concrete structures, GEOCISA, Madrid, Spain.
  • TEC-2007, (2007). Turkish Earthquake-resistant Code, Specification for Buildings to Be Built in Seismic Zones, Ministry of Public Works And Settlement, Ankara, Turkey. (In Turkish)
  • Yang, S. Y., Song, X. B., Jia, H. X., Chen, X., & Liu, X. L. (2016). Experimental research on hysteretic behaviors of corroded reinforced concrete columns with different maximum amounts of corrosion of rebar. Construction and Building Materials, 121, 319-327.
  • Yuksel, I., & Coskan, S. (2013). Earthquake response of reinforced concrete frame structures subjected to rebar corrosion. Earthquakes and Structures, 5(3), 321-341.
Year 2019, Volume: 4 Issue: 1, 11 - 20, 31.01.2019
https://doi.org/10.28978/nesciences.522364

Abstract

References

  • Baradan, B., & Aydın, S. (2013). Betonun Durabilitesi (Dayanıklılık, Kalıcılık). Beton 2013 Hazır Beton Kongresi, 265-288.
  • Berke, N., Bentur, A., & Diamond, S. (2014). Steel corrosion in concrete: fundamentals and civil engineering practice. CRC Press.
  • Berto, L., Saetta, A., & Simioni, P. (2008). Nonlinear static analyses of RC frame structures: influence of corrosion on seismic response. Proceedings of the 8th WCCM8—5th ECCOMAS.
  • Cape M. (1999). Residual service-life assessment of existing R/C structures, MS thesis, Chalmers University of Technology, Goteborg (Sweden) and Milan University of Technology, Italy, Erasmus Program; p. 133.
  • CSI SAP 2000 V-19. (2013), Integrated Finite Element Analysis and Design of Structures Basic Analysis Reference Manual Computer and Structures Inc., Berkeley, California.
  • FEMA-356, (2000). Prestandard and commentary for seismic rehabilitation of buildings, Washington DC.
  • Yalciner, H., Sensoy, S., & Eren, O. (2012). Effect of corrosion damage on the performance level of a 25-year-old reinforced concrete building. Shock and Vibration, 19(5), 891-902.
  • Yalciner, H., Sensoy, S., & Eren, O. (2012). Time-dependent seismic performance assessment of a single-degree-of-freedom frame subject to corrosion. Engineering Failure Analysis, 19, 109-122.
  • Ma, Y., Che, Y., & Gong, J. (2012). Behavior of corrosion damaged circular reinforced concrete columns under cyclic loading. Construction and Building Materials, 29, 548-556.
  • Rodriguez J., and Andrade C. (2001). CONTECVET: a validated user’s manual for assessing the residual service life of concrete structures, GEOCISA, Madrid, Spain.
  • TEC-2007, (2007). Turkish Earthquake-resistant Code, Specification for Buildings to Be Built in Seismic Zones, Ministry of Public Works And Settlement, Ankara, Turkey. (In Turkish)
  • Yang, S. Y., Song, X. B., Jia, H. X., Chen, X., & Liu, X. L. (2016). Experimental research on hysteretic behaviors of corroded reinforced concrete columns with different maximum amounts of corrosion of rebar. Construction and Building Materials, 121, 319-327.
  • Yuksel, I., & Coskan, S. (2013). Earthquake response of reinforced concrete frame structures subjected to rebar corrosion. Earthquakes and Structures, 5(3), 321-341.
There are 13 citations in total.

Details

Primary Language English
Subjects Civil Engineering
Journal Section 4
Authors

Mustafa Koçer

Murat Öztürk This is me

Ahmet Raif Boğa This is me

Publication Date January 31, 2019
Submission Date November 30, 2018
Published in Issue Year 2019 Volume: 4 Issue: 1

Cite

APA Koçer, M., Öztürk, M., & Boğa, A. R. (2019). Analytical Study on the Effect of Corrosion to the Construction Performance. Natural and Engineering Sciences, 4(1), 11-20. https://doi.org/10.28978/nesciences.522364

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