# Evaluation and Control of Variability in RAP Properties Through Refined Fractionation Processing Methods

**Authors:** Yan Zhang, Jiyang Li, Yiren Sun

PMC · DOI: 10.3390/ma18214944 · Materials · 2025-10-29

## TL;DR

This study shows that refined fractionation methods can significantly reduce variability in reclaimed asphalt pavement, leading to more consistent recycled mixtures.

## Contribution

The study introduces refined fractionation strategies and gray relational analysis for efficient and effective RAP processing.

## Key findings

- Refined four-fraction and six-fraction processing reduced gradation variability by up to 51.5% and 73.5%, respectively.
- The four-fraction method provided the best balance between processing effort and variability control.
- Gray relational analysis effectively determined blending proportions without complex optimization algorithms.

## Abstract

Variability in reclaimed asphalt pavement (RAP) properties, such as aggregate gradation, asphalt content, and moisture content, poses a significant challenge to producing consistent and reliable recycled asphalt mixtures. This study systematically evaluated processing techniques for mitigating variability through a comparative analysis of four fractionation strategies, i.e., unfractionated, two-fraction, four-fraction, and six-fraction processing. Corresponding to the four approaches, four distinct reference RAP mixtures were fabricated by proportionally recombining the obtained RAP fractions towards a target gradation. The gray relational analysis (GRA) was employed to quantify geometric similarity between the gradation curve of reclaimed aggregates from each fraction and the target gradation curve, thereby facilitating efficient determination of blending proportions without resorting to complex optimization algorithms. Statistical variability indicators, including range, standard deviation, and coefficient of variation (COV), were used to assess the effectiveness of each fractionation and recombining method. The results demonstrated that refined fractionation processing significantly reduced variability, particularly in gradation properties. Compared with the COV values from the commonly used two-fraction processing, those from the refined four-fraction and six-fraction processing methods decreased by up to 51.5% and 73.5%, respectively. While increasing the number of fractions generally enhanced homogeneity, the four-fraction approach emerged as the most technically reliable and economically viable strategy, achieving a desirable balance between processing effort and variability control. Furthermore, the GRA proved to be a practical and efficient tool for blend proportioning, reducing reliance on complex numerical methods. These findings reveal the importance of refined fractionated RAP processing in enabling the production of high-RAP recycled mixtures with improved uniformity and performance.

## Full-text entities

- **Chemicals:** asphalt (MESH:C006647)

## Full text

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## Figures

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## References

36 references — full list in the complete paper: https://tomesphere.com/paper/PMC12608248/full.md

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Source: https://tomesphere.com/paper/PMC12608248