Evaluating the strength loss and the effectiveness of glass and eggshell powder for cement mortar under acidic conditions-Reference-Cited by-同舟云学术

Evaluating the strength loss and the effectiveness of glass and eggshell powder for cement mortar under acidic conditions

Published:2024-01-01 Issue:1 Volume:63 Page:
ISSN:1605-8127
Container-title:REVIEWS ON ADVANCED MATERIALS SCIENCE
language:en
Short-container-title:

Author:

Liu Hao¹,Khan Suleman Ayub²,Amin Muhammad Nasir³,Althoey Fadi⁴,Qadir Muhammad Tahir³

Affiliation:

1. College of Architecture, Zhejiang Tongji Vocational College of Science and Technology , Hangzhou , 311231, Zhejiang , China

2. Department of Civil Engineering, COMSATS University Islamabad , Abbottabad , 22060 , Pakistan

3. Department of Civil and Environmental Engineering, College of Engineering, King Faisal University , Al-Ahsa , 31982 , Saudi Arabia

4. Department of Civil Engineering, College of Engineering, Najran University , Najran , Saudi Arabia

Abstract

Abstract The cementitious composite’s resistance to the introduction of harmful ions is the primary criterion that is used to evaluate its durability. The efficacy of glass and eggshell powder in cement mortar exposed to 5% sulfuric acid solutions was investigated in this study using artificial intelligence (AI)-aided approaches. Prediction models based on AI were built using experimental datasets with multi-expression programming (MEP) and gene expression programming (GEP) to forecast the percentage decrease in compressive strength (CS) after acid exposure. Furthermore, SHapley Additive exPlanations (SHAP) analysis was used to examine the significance of prospective constituents. The results of the experiments substantiated these models. High coefficient of determination (R 2) values (MEP: 0.950 and GEP: 0.913) indicated statistical significance, meaning that test results and anticipated outcomes were consistent with each other and with the MEP and GEP models, respectively. According to SHAP analysis, the amount of eggshell and glass powder (GP) had the most significant link with CS loss after acid deterioration, showing a positive and negative correlation, respectively. In order to optimize efficiency and cost-effectiveness, the created models possess the capability to theoretically assess the decline in CS of GP-modified mortar across various input parameter values.

Publisher

Walter de Gruyter GmbH

Link

https://www.degruyter.com/document/doi/10.1515/rams-2024-0042/pdf

Reference76 articles.

1. Bai, W., J. Shen, J. Guan, J. Wang, and C. Yuan. Study on compressive mechanical properties of recycled aggregate concrete with silica fume at different strain rates. Materials Today Communications, Vol. 31, 2022, id. 103444.

2. Cao, Y., J. Bao, P. Zhang, Y. Sun, and Y. Cui. A state-of-the-art review on the durability of seawater coral aggregate concrete exposed to marine environment. Journal of Building Engineering, Vol. 60, 2022, id. 105199.

3. Jin, C., Y. Qian, K. Khan, A. Ahmad, M. N. Amin, F. Althoey, et al. Predicting the damage to cementitious composites due to acid attack and evaluating the effectiveness of eggshell powder using interpretable artificial intelligence models. Materials Today Communications, Vol. 37, 2023, id. 107333.

4. Bahraq, A. A., J. Jose, M. Shameem, and M. Maslehuddin. A review on treatment techniques to improve the durability of recycled aggregate concrete: Enhancement mechanisms, performance and cost analysis. Journal of Building Engineering, Vol. 55, 2022, id. 104713.

5. Baloch, W. L., H. Siad, M. Lachemi, and M. Sahmaran. A review on the durability of concrete-to-concrete bond in recent rehabilitated structures. Journal of Building Engineering, Vol. 44, 2021, id. 103315.