Design of highway pavement earthquake damage prediction method considering horizontal earthquake force
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Table III clearly points out the various coefficient
relations between post-construction settlement and soft soil thickness and filling height. From table III, in each layer filling section, the coefficient relationship between settlement and soil layer thickness is higher than that between settlement and fill height. At the initial stage of loading, due to the increase of load rate, the filling rate of soil layer is too large, and the water in the pores of soil layer cannot be squeezed out in time, so the settlement of soil layer is small. However, in this case, lateral de- formation is easy to occur, and the settlement of the soil layer increases rapidly after being loaded. On the contrary, if the filling speed of the soil layer is rela- tively slow, the pore water in the soft soil subgrade will be discharged slowly, and the water pressure in the pore will be converted into the force inside the soil layer. Under the action of this effect force, the lateral deformation in the settlement process is gradu- ally reduced. Therefore, the settlement amount and settlement rate of soft soil roadbed are also reduced. If the settlement of the soil layer increases instanta- neously during the increase of load, it is likely that the roadbed has serious plastic deformation. To analyze the influence of the sand layer in the roadbed on the consolidation degree of soft soil, the static cone penetration test distribution curve of pore pressure was studied and analyzed in detail. Different sand layers are classified. There are five different sand layers according to the different amount of sand. The experiment is divided according to the cone tip resis- tance, cantilever pressure and sand layer thickness of each sand layer. The weight of different factors is 100. See table IV and table V for details According to Table V, the sand layer in the high- speed subgrade has a direct impact on the consoli- dation of soft soil. For the left section and middle section of K28 + 860 section, both are new sections within the same time, and the thickness of soft soil silt is the same. However, the sand gradation in the left end face of K28 + 860 is lower than that of the middle section. Thus, the settlement of this section is relatively large after construction, which is mainly because the seepage performance of the sand layer is greater than that of the soft soil layer. The sand layer in the soil layer is combined with the sand well drainage system, which effectively improves the consolidation degree and efficiency of the soft soil layer. Meanwhile, due to the large preloading load of the roadbed at the initial stage, the settlement of the sand layer after construction is less. When the silt thickness in the local lower soil layer is higher than 20 m, the sandy layer has little impact on the settlement after construction. Due to the excessive silt thickness in the soft soil layer, even if the grade of the sandy layer is higher, it will not have a great impact on the settlement phenomenon in the later period. For example, in the left section of K32 + 290 and the right section of K36 + 650, the distribution of soft soil silt in these two sections is large, about 36.5 m and 40 m respectively, and the post-construction settlement of these two places has reached more than 100 mm. However, in this kind of soil layer with large silt thick- ness, there is a positive impact on the settlement of the later period. Among the above two sections, the sand gradation grade of the former is relatively high, so the settlement after construction is relatively small. There is a positive correlation between the sur- face settlement of soft soil subgrade and pavement load. There is also a positive correlation between the settlement rate of soft soil layer subgrade and pave- ment load. During road construction, no matter the settlement rate or settlement amount of the roadbed, the response to the load is very strong. When the Download 1 Mb. Do'stlaringiz bilan baham: |
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