Design of highway pavement earthquake damage prediction method considering horizontal earthquake force


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TABLE III. LIST OF COEFFICIENTS OF RELATION 
BETWEEN POST-CONSTRUCTION SETTLE-
MENT AND FILLING HEIGHT.
Correlation
coefficient
Filling height
3m section 4m section 5m section
Post construction 
settlement and soft 
soil thickness
0.9137
0.75580
0.8500
Post construction 
settlement and fill 
thickness
0.4182
0.0932
0.3706
TABLE IV. GRADING TABLE OF SAND INTERLAYER.
Weight <20
20-40
40-60
60-80
80-100
Grade
Grade 1 Grade 2 Grade 3 Grade 4 Grade 5


HIGHWAY PAVEMENT EARTHQUAKE DAMAGE PREDICTION
89
pavement load increases, the settlement of soft soil 
subgrade will increase, the curve in the figure will 
gradually steepen as well. When the subgrade load 
increases to a certain extent, the settlement curve 
of the roadbed will gradually become stable. Cor-
respondingly, the settlement rate changes, and the 
settlement rate increases first and then decreases, 
during embankment filling.
There is a critical paving height value, the total 
settlement of the roadbed has a turning point. When 
the filling height of the soft soil layer of the subgrade 
is less than this value, the settlement rate of the 
subgrade will be further reduced. When the paving 
height exceeds this value, the settlement rate of em-
bankment will continue to increase. In serious cases
the subgrade will lose its due stability.
Figure 3 shows the relationship between filling 
and settlement of K36+030 section of expressway 
within one year. There is a positive correlation be-
tween subgrade settlement and pavement load, which 
can be analyzed and elaborated by Terzaghi (Ding C. 
et al, 2020). The saturated clay layer gradually drains 
the water in the pores under the pressure of load, so 
that the strength of the layer is enhanced and con-
solidation deformation occurs. During consolidation 
under load, not only the pore ratio in the soil layer 
is effectively reduced, but also the shear strength of 
the soil layer is effectively enhanced.
From figure 4, the larger the load on the highway 
subgrade, the greater the settlement rate of the soil 
layer. This is consistent with the relationship between 
settlement and load. Meanwhile, figure 4 demon-
strates that the settlement rate of the soft soil bed 
responds positively to the load. During the loading 
period, the settlement rate of the surface soil layer 
continues to increase. However, when the load on 
the pavement stops increasing, the settlement rate 
of the roadbed gradually decreases. This is mainly 
caused by the consolidation and lateral deformation 
of the roadbed during the loading period. However, 
when the load is applied to the subgrade, the lateral 
deformation of the subgrade will occur. At the initial 
stage of subgrade loading, the water and pore water in 
the soil layer cannot be discharged in time. Under the 
action of compressive stress, the soil layer undergoes 
lateral shear deformation.
In this stage, the settlement of the soil layer in-
creases in linear form. With the continuous increase 
of load time, the water between the pores in the 
0
50
100 150 200 250 300 350 400 450 500
2
4
6
8
0
Time/Day
Fill height/(m)
Fig. 4. Relation curve between filling height and time.
0
0
–2
–4
–6
–8
50
100 150 200 250 300 350 400 450 500
Time/Day
Settlement/(m)

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