块石路基结构在高温多年冻土区适应性问题仍值得讨论,应采取相对应的补强措施,确保高温多年冻土区路基稳定性。
Thus, the applicability of block-stone embankment structure is worth to be discussed in order to take corresponding measures to solve the stability problems of embankment in warm permafrost regions.
因此,建议在高温多年冻土区使用抛石护坡路基结构时,应考虑使用保温材料作为一种对抛石护坡路基进行保温补强的措施。
Therefore, it is proposed that in warmer permafrost regions, the insulation should be used to increase the cooling effect of embankment with crushed-rock revetment.
在多年冻土地区,尤其是高含冰量的多年冻土区,阴阳坡的出现给路基的稳定性带来了极大的危害。
When road water content, the is constructed in permafrost region of long time, especially with rich stability of embankment is dramatically imperiled by the "Yin-Yang" slope.
多年冻土区修筑沥青路面后,引起了路基下多年冻土上限、多年冻土热状态等变化。
After asphalt pavement having been constructed in permafrost regions, permafrost thermal regime and permafrost table under roadbed will undergo a change.
本文运用有限元分析方法,对多年冻土区含保温夹层的路基温度场进行了数值模拟。
In this paper, the method of 2-D finite element analysis was conducted to simulate the thermal state of the roadbed with insulations on permafrost.
本文运用有限元分析方法,对多年冻土区含保温夹层的路基温度场进行了数值模拟。
In this paper, the method of 2-D finite element analysis was conducted to simulate the thermal state of the roadbed with insulations on permafrost.
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