沥青混合料内的水气运动

doi:10.3969/j.issn.1674-0696.2016.sup1.07

摘要/Abstract

摘要： 干旱少雨地区沥青路面水损害的工程实例表明,除了液态水，气态水也是水损害的重要来源。沥青路面在相对湿度动态变化的环境中服役，相对湿度梯度是水气运动的重要驱动力之一。为探究不同相对湿度差下，气态水在沥青混合料中的运动规律，采用磁悬浮重量平衡系统（GSA）设计并进行各相对湿度差下的水气扩散试验。试验结果表明：气态水在沥青混合料积聚的最大水气增量M(∞)与相对湿度差成线性正相关，随着相对湿度差的增大，M(∞)线性增大；在蒸气压下，气态水在沥青混合料中扩散系数D与相对湿度差呈反比例关系，转换为标准大气压下后，扩散系数D与相对湿度差成线性正相关，随着相对湿度差的增大，D线性增大。

关键词: 沥青路面, 水损害, 水气, 相对湿度差, 最大水气增量, 扩散系数

Abstract: As shown by engineering cases of moisture damage to asphalt pavement in arid areas, moisture damage is an importance source in addition to water in liquid form and vapor. For the asphalt pavement serving in the environment of dynamic change of moisture , relative moisture gradient is one of the prime drives for vapor movement. In order to investigate the water vapor transport in asphalt mixtures under different relative humidity differentials, the water vapor diffusion test was performed on asphalt mixture specimens under different relative humidity differentials by use of Gravimetric Sorption Analyzer (GSA). The test results indicate that the total diffused mass of water vapor accumulated in the test specimen (M(∞)) is linearly proportional to the relative humidity differential and that the total diffused mass M (∞) increases with the increase of the relative humidity differential. It is also found that the diffusivity D of water vapor in the test specimen is inversely proportional to the relative humidity differential under water vapor pressure only. After being converted to standard atmosphere pressure, the diffusivity D and relative humidity moisture are in linear positive relationship, which indicates that the relative humidity differential increases with the linear increment of diffusivity D .

Key words: asphalt pavement, moisture damage, water vapor, relative humidity differential, total diffused mass of water vapor, diffusion coefficient

中图分类号:

罗蓉，黄婷婷. 沥青混合料内的水气运动[J]. 重庆交通大学学报（自然科学版）, 2016, 35(S1): 49-60.

LUO Rong, HUANG Tingting. Water Vapor Diffusion in Asphalt Mixtures[J]. Journal of Chongqing Jiaotong University(Natural Science), 2016, 35(S1): 49-60.

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