SMA-13 Recycled Asphalt Mixtures with Flocculent Basalt Fiber: Experiment and Random Forest Analysis
Yu Cai, Hong Sun, Zhipeng Tao, Kaimin Fu, Huajie Yin, Maomao Chen, Shenghan Zhuang, Jiaolong Ren

TL;DR
This study explores how adding flocculent basalt fiber affects the performance of recycled asphalt mixtures and finds optimal fiber parameters for better road performance.
Contribution
The study introduces a combined analysis of fiber diameter, length, and content using random forest analysis for optimizing recycled asphalt mixtures.
Findings
Optimal asphalt-aggregate ratio and road performance improve with higher fiber content and length but worsen with larger diameter.
Fiber content has the greatest impact on road performance, followed by diameter and then length.
The optimal fiber content is 0.4% for 6 µm diameter fibers and 0.3% for 3 µm diameter and 4 mm length fibers.
Abstract
Flocculent basalt fiber (FBF), a natural fiber characterized by high strength, excellent toughness, and environmental friendliness, is an ideal additive for enhancing the road performance of recycled asphalt mixtures. However, existing research on FBF-reinforced recycled asphalt mixtures has largely been limited to single-factor analyses of FBF content, neglecting the synergistic effects of FBF size characteristics (diameter and length) and content. This critical gap restricts the accurate optimization of FBF parameters and the reliable application of FBF in recycled asphalt mixtures. Hence, this study investigates the combined effects of FBF diameter, length, and content on the optimal asphalt–aggregate ratio, mechanical properties, high-temperature rutting resistance, low-temperature cracking resistance, and water stability of SMA-13 recycled asphalt mixtures. A random forest approach…
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Taxonomy
TopicsAsphalt Pavement Performance Evaluation · Natural Fiber Reinforced Composites · Geotechnical Engineering and Soil Stabilization
