刚柔复合路面系统性审查

Zhaohui Liu, Shiqing Yu, You Huang, Li Liu, Yu Pan
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引用次数: 0

摘要

近几十年来,刚柔复合路面得到了广泛应用。本文全面回顾了刚柔复合材料路面的研究进展,旨在推广其应用,解决关键问题,同时明确未来发展方向。本文首先讨论了刚柔复合材料路面的设计理论和方法,然后介绍了其结构和力学行为特征。分析了沥青层和刚性基层之间的荷载应力、温度应力及其交互影响。明确了沥青层作为 "功能层 "和 "结构层 "的双重作用。讨论了主要发生在沥青层的刚柔复合路面典型损坏。这些问题包括反射裂缝、自上而下裂缝、车辙和压缩剪切破坏。一般来说,刚性基层的完整性和层间粘结条件会对沥青层的性能和困境产生重大影响。提高刚柔复合路面性能的技术归纳为三个方面:沥青层性能、刚性基层完整性和层间粘结条件。研究认为,根据路面材料的结构行为开发高性能路面材料是提高刚柔复合路面性能和耐久性的有效方法。结构与材料的综合设计代表了道路设计的未来方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A systematic review of rigid-flexible composite pavement

Rigid-flexible composite pavement has gained significant popularity in recent decades. This paper provides a comprehensive review of the research progress concerning rigid-flexible composite pavement, aiming to promote its application and address key issues while identifying future directions. The design theory and methodology of rigid-flexible composite pavement are discussed, followed by a description of its structural and mechanical behavior characteristics. The load stress, temperature stress, and their interactive effects between the asphalt layer and the rigid base were analyzed. It is clarified that the asphalt layer serves a dual role as both a “functional layer” and a “structural layer”. Typical distresses of rigid-flexible composite pavement, which primarily occur in the asphalt layer, were discussed. These distresses include reflective cracking, top-down cracking, rutting, and compressive-shear failure. Generally, the integrity of the rigid base and the interlaminar bonding conditions significantly impact the performance and distress of the asphalt layer. The technology for enhancing the performance of rigid-flexible composite pavement is summarized in three aspects: asphalt layer properties, rigid base integrity, and interlaminar bonding condition. The study concludes that developing high-performance pavement materials based on their structural behaviors is an effective approach to improve the performance and durability of rigid-flexible composite pavement. The integrated design of structure and materials represents the future direction of road design.

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