轻量泡沫混凝土底基柔性路面临界响应的环境影响

IF 1.1 4区 工程技术 Q3 ENGINEERING, CIVIL
Abimbola Grace Oyeyi, Hanaa Khaleel Alwan Al-Bayati, Frank Mi-Way Ni, Susan Tighe
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引用次数: 0

摘要

先前的分析研究表明,低密度轻质泡沫混凝土(LCC)基层路面可以承受比未结合颗粒基层路面多20倍的交通荷载,同时保护路面路基免受寒冷地区不利的冻融影响。本研究通过施工、仪器仪表和监测柔性路面部分,将三种LCC密度(400、475和600 kg/m³)作为亚基材料,与加拿大未结合的颗粒材料进行比较,探讨在现场提供性能更好的路面的可能性。评估了日温度和季节温度对路面应力应变临界响应的影响。结果表明,与未粘结的颗粒路面相比,LCC路面使沥青混凝土的拉伸应变降低了2倍以上,且应变随温度的逐日升高而增加。每日路基压力(应力)变化减少了68%。研究得出结论,LCC基层厚度≥250 mm可以实现更长的路面寿命。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Environmental Impact on Critical Responses of Lightweight Cellular Concrete Subbase Flexible Pavements
Previous analytical studies have demonstrated that low-density lightweight cellular concrete (LCC) subbase pavements can support up to 20 times more traffic loads than unbound granular subbase pavements while protecting the pavement subgrade from adverse freeze–thaw effects in cold regions. This study examines the possibility of providing better-performing pavements on the field through the construction, instrumentation, and monitoring of flexible pavement sections incorporating three LCC densities (400, 475, and 600 kg/m³) as subbase material compared with unbound granular material in Canada. The effects of daily and seasonal temperatures on pavement critical responses to stress and strains were evaluated. The findings showed that these LCC pavements reduced asphalt concrete tensile strain by over two times compared with unbound granular pavements, and that strain increased with a daily temperature increase. Daily subgrade pressure (stress) change was reduced by up to 68%. The study concluded that longer life pavements could be achieved with LCC subbase thicknesses ≥250 mm.
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来源期刊
Canadian Journal of Civil Engineering
Canadian Journal of Civil Engineering 工程技术-工程:土木
CiteScore
3.00
自引率
7.10%
发文量
105
审稿时长
14 months
期刊介绍: The Canadian Journal of Civil Engineering is the official journal of the Canadian Society for Civil Engineering. It contains articles on environmental engineering, hydrotechnical engineering, structural engineering, construction engineering, engineering mechanics, engineering materials, and history of civil engineering. Contributors include recognized researchers and practitioners in industry, government, and academia. New developments in engineering design and construction are also featured.
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