水力发电学报2026,Vol.45Issue(5):95-108,14.DOI:10.11660/slfdxb.20260508
高海拔强紫外环境下花岗岩沥青混凝土老化性能研究
Aging performance of granite asphalt concrete in high-altitude and intense ultraviolet environments
摘要
Abstract
To examine the time-evolving performance of acidic aggregate asphalt concrete in high-altitude and strong ultraviolet(UV)environments,this study selects acidic granite and alkaline limestone asphalt concretes for UV aging tests,and evaluates their mechanical properties by conducting beam bending tests.We develop a coupling model of temperature and UV radiation effects,using the response surface methodology(RSM)and three indicators-stress,strain,and critical flexural strain energy density.The results show UV aging causes chemical damage to the asphalt matrix,leading to the development and time-dependent propagation of cracks in the mixture,which results in a decrease in deformability.The damage effects vary significantly across different temperatures,and the material at 0℃features a higher strength,a greater deformability,and the best UV resistance stability.As aging develops,the maximum difference in peak strain between limestone and granite asphalt concretes can reach 50%.This study reveals the performance degradation of acidic aggregate asphalt concrete in alpine and strong UV environments,and quantifies its differences from alkaline materials,laying a basis for selecting anti-seepage materials for asphalt concrete face slabs.关键词
沥青混凝土/紫外老化/花岗岩骨料/性能退化/响应面法Key words
asphalt concrete/ultraviolet aging/granite aggregate/performance degradation/response surface methodology分类
建筑与水利引用本文复制引用
孟繁星,许增光,付涵,曹成,金发建..高海拔强紫外环境下花岗岩沥青混凝土老化性能研究[J].水力发电学报,2026,45(5):95-108,14.基金项目
国家自然科学基金项目(U25B20224 ()
52039008) ()
陕西省技术创新引导计划(基金)资助项目(2024QY-SZX-27) (基金)
