Prediction the Chloride Ion Permeation Coefficient of Concrete Based on A Hybrid Intelligent Algorithm

Journal of Advanced Materials in Engineering Pub Date : 2023-01-01 DOI:10.55571/aje.2023028

Yuan Cao, Xian-Guo Wu, Wen Xu, Hao Huang, Ya-Wei Qin, Jian-Bin Ma, Lei Jian

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Abstract

Chloride ion penetration resistance (CIPR) is a critical concern in engineering to ensure the long-term durability of concrete structures, accurately predicting concrete CIPR is essential for designing the appropriate mix ratio. The rapid chloride migration (RCM) test is the most commonly used experimental method, typically employed to measure CIPC. To efficiently and accurately predict the CIPR of concrete, a Bayesian Optimization (BO)-Light Gradient Boosting Machine (LGBM) model is developed. Through this research, it can be concluded that (1) BO can effectively search and optimize the hyperparameters in LGBM. Within 100 iterations, BO optimization can search the hyperparameters effectively and find the optimal solution quickly.(2) BO-LGBM has a strong predictive ability, and its prediction accuracy is superior than the other three prediction models. The outcomes indicate that the application of this model has important practical significance for predicting the CIPC of concrete, optimizing the design of the concrete mix ratio and improving the durability of concrete.

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基于混合智能算法的混凝土氯离子渗透系数预测

抗氯离子渗透系数(CIPR)是保证混凝土结构长期耐久性的关键问题，准确预测混凝土的CIPR对设计合适的配合比至关重要。快速氯化物迁移(RCM)试验是最常用的实验方法，通常用于测量CIPC。为了高效、准确地预测混凝土的CIPR，建立了贝叶斯优化(BO)-光梯度增强机(LGBM)模型。通过本研究可以得出结论:(1)BO可以有效地搜索和优化LGBM中的超参数。(2) BO- lgbm具有较强的预测能力，预测精度优于其他三种预测模型。结果表明，该模型的应用对预测混凝土CIPC、优化混凝土配合比设计和提高混凝土耐久性具有重要的现实意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Advanced Materials in Engineering

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50 weeks