基于线性各向异性的颗粒状基层沥青路面表面挠度修正系数

L. Zhenfeng, Gu XiangYun, Zhang Ming
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引用次数: 1

摘要

颗粒材料的各向异性已被实验证明,但目前的设计规范也是基于各向同性理论,这对沥青路面结构是不安全的,路面挠度变化越小,路面寿命变化越大。基于线性各向异性模型,在路基高、中、低强度条件下,系统研究了4种不同厚度的沥青层和3种不同厚度和强度的颗粒基层,结果表明,由于颗粒的各向异性,路基强度对路面挠度的影响较大,低、高路基的挠度差异最大,达到63.7%;随着沥青层厚度的增加,最大挠度修正系数可达1.05,颗粒亚基的强度、厚度和各向异性对表面挠度的影响不明显,但对挠度修正系数的影响较大,颗粒强度和厚度的最大修正系数可达1.055和1.1,颗粒各向异性与挠度修正系数成反比,最大因子可达1.045。
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Notice of RetractionCorrection factor of surface deflection for asphalt pavement of granular sub-base based on linear-anisotropy
Anisotropy of granular material has been proved by experiment, but the current design specifications are also based on isotropic theory, it is not safe for asphalt pavement structure, there is a greater change for pavement life with the less change of surface deflection. Based on linear-anisotropic model, on the condition of the high, medium and low strength of soil subgrade, 4 different thickness of asphalt layer and 3 different thickness and strength of granular sub-base are been systematically studied, the results show that, the strength of the soil subgrade has bigger effect on the pavement deflection because of the granular anisotropy, the bigger deflection difference of the low to the high subgrade is up to 63.7%, the biggest deflection correction factor is up to 1.05 with the thickness of asphalt layer, the effect is not obvious for the strength, thickness and anisotropy of granular sub-base to the surface deflection, but it has the greater effect on the deflection correction factor, the biggest correction factor is up to 1.055 and 1.1 for the granular strength and thickness, the relation of granular anisotropy to deflection correction factor is inverse, the biggest factor may be up to 1.045.
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