Highway constructions on the Qinghai-Tibet Plateau: Challenge, research and practice

Aimin Sha , Biao Ma , Hainian Wang , Liqun Hu , Xuesong Mao , Xilan Zhi , Huaxin Chen , Yu Liu , Feng Ma , Zhuangzhuang Liu , Rui He , Wei Si , Xuhao Wang , Cheng Li
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引用次数: 16

Abstract

Highway constructions on the Qinghai-Tibet Plateau (QTP) face great challenges induced by the unique local environmental, geological, and engineering conditions. The large area of permafrost, great temperature variability, strong UV rays, and complex geological conditions are the major factors that adversely influence the long-term performance of pavement systems. Since 1960s, Chinese engineers and researchers have started conducting research on the QTP to enhance the performance and durability of pavement systems. The present paper provide a comprehensive review of challenge, research and practice of highway constructions on the QTP including the special environmental and geological conditions, history of highway constructions on the QTP, major challenges and the state-of-the-art technology of subgrade constructions on permafrost, developments of the pavement structures and materials, performance prediction and maintenance methods of pavement surfaces, and applications of the research achievements on the first expressway on the QTP (i.e., Gongyu Expressway). Based on the comprehensive literature review, it can be found that (1) frost heave and thaw weakening induced subgrade disease and longitudinal cracks on the pavement surface are complex coupled water-thermal-load problems. Engineering solutions are focusing on active cooling and thermal insulation methods, which can help to reduce temperature variations in the subgrade and thus improving its stability, (2) the harsh environmental and construction conditions may reduce the early strength and induce premature damage of cement-treated base materials. Some field validations showed that geocell-reinforced or asphalt-treated flexible base materials can provide better long-term performance, (3) the large temperature variability and strong UV rays can significantly accelerate aging of asphalt binders and greatly reduce the service life of asphalt mixtures. Various binder modification methods were developed for improving their viscoelasticity and enhance the low-temperature cracking resistance of pavement surface materials but are still lack of field validation data and comparisons of their life cycle costs. Therefore, it is recommended that a demonstration research project build test sections to examine a range of pavement structures and materials, and compare their long-term performance and life cycle costs, which can serve as important reference for future highway constructions on the QTP.

青藏高原公路建设:挑战、研究与实践
青藏高原独特的环境、地质和工程条件给公路建设带来了巨大的挑战。冻土面积大、温度变异性大、紫外线强、地质条件复杂是影响路面系统长期性能的主要因素。自20世纪60年代以来,中国的工程师和研究人员开始对QTP进行研究,以提高路面系统的性能和耐久性。本文对青藏高原公路建设面临的挑战、研究和实践进行了全面综述,包括青藏高原特殊的环境和地质条件、青藏高原公路建设的历史、冻土路基建设的主要挑战和最新技术、路面结构和材料的发展、路面表面的性能预测和维护方法。以及研究成果在青藏高原第一条高速公路(即公渝高速公路)上的应用。综合文献综述发现:(1)冻胀和融弱引起的路基病害和路面纵向裂缝是复杂的水-热-荷载耦合问题。工程解决方案的重点是主动冷却和保温方法,这有助于减少路基的温度变化,从而提高其稳定性。(2)恶劣的环境和施工条件可能会降低水泥处理基层材料的早期强度,导致其过早损伤。一些现场验证表明,土工格室增强或沥青处理的柔性基层材料可以提供更好的长期性能。(3)较大的温度变化和强烈的紫外线会显著加速沥青粘结剂的老化,大大降低沥青混合料的使用寿命。为了提高路面材料的粘弹性和抗低温开裂性能,人们开发了各种粘结剂改性方法,但仍缺乏现场验证数据和寿命周期成本的比较。因此,建议开展示范性研究项目,对一系列路面结构和材料进行试验研究,比较其长期性能和寿命周期成本,为今后青藏高原公路建设提供重要参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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