# A Study on the Road Performance of the Self-Healing Microcapsule for Asphalt Pavement

**Authors:** Pei Li, Rongyi Ji, Chenlong Zhang, Jinghan Xu, Mulian Zheng, Xinghan Song

PMC · DOI: 10.3390/ma18153483 · 2025-07-25

## TL;DR

This study develops self-healing microcapsules to improve asphalt pavement durability by enhancing crack repair and road performance.

## Contribution

The paper introduces two-component epoxy self-healing microcapsules with improved high-temperature resistance and self-healing efficiency in asphalt.

## Key findings

- The developed microcapsules remain intact under high-temperature conditions and show good particle size distribution.
- Microcapsule/asphalt mixtures exhibit excellent high-temperature resistance, low-temperature crack resistance, and fatigue resistance.
- At 4% microcapsule content, the self-healing rate reached 67.8%, significantly higher than base asphalt.

## Abstract

Asphalt pavement cracking is an important factor affecting its service life. Under certain conditions, the self-healing behavior of asphalt itself can repair pavement cracks. However, the self-healing ability of asphalt itself is limited. In order to strengthen the self-healing ability of asphalt, the microcapsule wrapped with a repair agent is pre-mixed into the asphalt mixture. When the crack occurs and spreads to the surface of the microcapsule, the microcapsule ruptures and the healing agent flows out to realize the self-healing of the crack. Current microcapsules are mostly prepared with healing agents and bio-oil as core materials, and their high-temperature resistance to rutting is poor. While the epoxy resin contains a three-membered cyclic ether, it can undergo ring-opening polymerization to bond and repair the asphalt matrix. In addition, research on microcapsules mainly focuses on the self-healing properties of microcapsule-modified asphalt. In fact, before adding microcapsules to asphalt to improve its self-healing performance, it is necessary to ensure that the asphalt has a good road performance. On this basis, the self-healing performance of asphalt is improved, thereby extending the service life of asphalt pavement. Therefore, two-component epoxy self-healing microcapsules (E-mic and G-mic) were first prepared in this paper. Then, a temperature scanning test, rheological test of bending beams, and linear amplitude scanning test were, respectively, conducted for the microcapsule/asphalt to evaluate its road performance, including the high-temperature performance, low-temperature crack resistance, and fatigue performance. Finally, the self-healing performance of microcapsules/asphalt was tested. The results showed that the self-developed epoxy self-healing microcapsules were well encapsulated and presented as spherical micron-sized particles. The average particle size of the E-mic was approximately 23.582 μm, while the average particle size of the G-mic was approximately 22.440 μm, exhibiting a good normal distribution. In addition, they can remain intact and unbroken under high-temperature conditions. The results of road performance tests indicated that the microcapsule/asphalt mixture exhibits an excellent high-temperature resistance to permanent deformation, low-temperature crack resistance, and fatigue resistance. The self-healing test demonstrated that the microcapsule/asphalt exhibited an excellent self-healing performance. When the microcapsule content was 4%, the self-healing rate reached its optimal level of 67.8%, which was 149.2% higher than that of the base asphalt.

## Linked entities

- **Chemicals:** epoxy resin (PubChem CID 3559)

## Full-text entities

- **Chemicals:** epoxy (MESH:D004853), E-mic (-), Asphalt (MESH:C006647), cyclic ether (MESH:D004988), oil (MESH:D009821)

## Figures

20 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12348530/full.md

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Source: https://tomesphere.com/paper/PMC12348530