Title : ( Developing robust structure: Multi‐expression programming for anticipating mechanical properties of shape memory alloy‐confined concrete cylinders )
Authors: ُSaeed Eilbeigi Ghalani , Mohammadreza Tavakkolizadeh , Amir R. Masoodi ,
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Abstract
This study emphasizes the expansion of novel relationships to determine maximum compressive stress, corresponding strain, ultimate stress, and strain in order to enhance the precision and practicality of predicting the behavior of SMA-confined concrete (SMACC) with spirals. It develops predictive equations for the mechanical properties of SMACC cylinders using the multi-expression programming (MEP) method. The MEPX software is employed to derive optimal relationships by collecting experimental data from 42 concrete cylindrical specimens subjected to uniaxial compression and confined with SMA spirals. The findings show that the developed MEP-based relationships not only provide practical equations, but also produce more precise results.
Keywords
, active concrete confinement; axial stress and strain; mechanical properties; multi, expression programming; shape memory alloy
@article{paperid:1103624,
author = {Eilbeigi Ghalani, ُSaeed and محمدرضا توکلی زاده and Masoodi, Amir R.},
title = {Developing robust structure: Multi‐expression programming for anticipating mechanical properties of shape memory alloy‐confined concrete cylinders},
journal = {Structural Concrete},
year = {2025},
month = {April},
issn = {1464-4177},
keywords = {active concrete confinement; axial stress and strain; mechanical properties; multi-expression programming; shape memory alloy},
}
%0 Journal Article
%T Developing robust structure: Multi‐expression programming for anticipating mechanical properties of shape memory alloy‐confined concrete cylinders
%A Eilbeigi Ghalani, ُSaeed
%A محمدرضا توکلی زاده
%A Masoodi, Amir R.
%J Structural Concrete
%@ 1464-4177
%D 2025
