Open Engineering (Apr 2024)

Numerical investigation of the effect of longitudinal steel reinforcement ratio on the ductility of concrete beams

  • Mohammed Ahlam Sader,
  • Al-Ghabawi Humam Hussein Mohammed,
  • Mansor Ahmed A.,
  • Yassin Layla Ali Ghalib

DOI
https://doi.org/10.1515/eng-2022-0593
Journal volume & issue
Vol. 14, no. 1
pp. 189 – 209

Abstract

Read online

This research aims to use numerical methods to analyze concrete beams with different reinforcement ratios. Two software packages – ABAQUS and OpenSeesPy – were employed to achieve this task. Empirical stress–strain relationships were utilized to forecast the concrete’s stress–strain behavior. The numerical analysis results were compared with previously published experimental results, and the findings showed a reasonable similarity. The results were consistent with the published laboratory results, particularly for ultimate and yield loads, with no more than 10% differences. However, the ultimate deflection variation was higher. For the first control beam, denoted as B 2−12, ABAQUS predicted a 24.64% difference in ultimate deflection, while OpenSeesPy predicted a 35.83% difference for the second beam, sampled as B 2–16. However, the ultimate deflection for the remaining beams differed by less than 10%. Meanwhile, the difference in yield deflection was greater than in ultimate deflection, with OpenSeesPy showing a maximum difference of 18.51%. The maximum ductility was found to occur at a reinforcement ratio equal to 0.0016. Additionally, OpenSeesPy was faster than ABAQUS in computation while still producing satisfactory agreement with experimental results.

Keywords