Mejora eficiente para la estimación de la energía libre superficial del ligante asfáltico mediante herramientas de Machine Learning

IF 0.3 Q4 ENGINEERING, MULTIDISCIPLINARY UIS Ingenierias Pub Date : 2021-05-10 DOI:10.18273/revuin.v20n3-2021013

David Sierra-Porta

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Abstract

The Surface Free Energy (SFE) of a material is defined as the energy needed to create a new surface unit under vacuum conditions. This property is directly related to the resistance to fracture and recovery of material and the ability to create strong adhesion with other materials. This value can be used as a complementary parameter for the selection and optimal combination of materials for asphalt mixtures, as well as in the micromechanical modelingof fracture and recovery processes of said mixtures. This document describes the results of the implementation of the use of machine learning and Random Forest prediction techniques for the estimation of surface free energy based on data from previous studies. The experimental samples were twenty-three asphalt binders used in a Strategic Highway Research Program (SHRP). A decrease of 54% and 82% in the mean absolute error (MAE) and the mean square error (MSE), respectively was found for the new model built. While the model fits better with a 12% improvement, according to the adjusted determination coefficient, the accuracy and the score of the model also increases notably in 2% and 55%, respectively.

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利用机器学习工具有效改进沥青粘结剂表面自由能估计

材料的表面自由能（SFE）被定义为在真空条件下创建新的表面单元所需的能量。这种性质与材料的抗断裂和恢复能力以及与其他材料形成强粘附性的能力直接相关。该值可作为补充参数，用于沥青混合料材料的选择和最佳组合，以及所述混合料的断裂和恢复过程的微观力学模型。本文件描述了基于先前研究的数据，使用机器学习和随机森林预测技术估计表面自由能的结果。实验样品为战略公路研究计划（SHRP）中使用的23种沥青结合料。新模型的平均绝对误差（MAE）和均方误差（MSE）分别下降了54%和82%。虽然该模型更适合12%的改进，但根据调整后的确定系数，该模型的准确性和得分也分别显著提高了2%和55%。

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来源期刊

UIS Ingenierias ENGINEERING, MULTIDISCIPLINARY-

自引率

33.30%

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审稿时长

12 weeks