CN113944167A - Settlement calculation method considering soft soil foundation prepressing excavation backfill construction influence - Google Patents

Abstract

The invention discloses a settlement calculation method considering the influence of soft soil foundation prepressing excavation backfill construction, which comprises the following steps: analyzing the pre-pressing treatment depth, the load size and the treated consolidation degree of the site, determining the elevation change conditions of the site after pre-pressing, excavating and backfilling construction, respectively adopting linear and nonlinear compression modulus methods to calculate the total consolidation settlement of the filling layer, the residual total consolidation settlement of the soft soil layer caused by backfilling above the pre-pressing treatment depth and the total consolidation settlement of the soft soil layer below the pre-pressing treatment depth, finally calculating the average consolidation degree of the soft soil layer in different stages according to the backfilling process, calculating the total consolidation settlement and the settlement of each stage, and comparing the average consolidation degree with the site monitoring result. Compared with the existing method for calculating the settlement change in the construction process by considering the complex stress history or a finite element tool, the method can be applied to various complex working conditions considering the influences of pre-compaction backfill and excavation, improves the accuracy, is convenient to implement, and can be widely applied to the technical field of building engineering.

Description

Settlement calculation method considering soft soil foundation prepressing excavation backfill construction influence

Technical Field

The invention relates to the technical field of constructional engineering, in particular to a settlement calculation method considering the influence of soft soil foundation prepressing excavation backfill construction.

Background

Engineering on soft ground often requires ground treatment by surcharge or vacuum preloading to increase its ground bearing capacity and reduce settlement. In general, the foundation treatment depth needs to reach the bottom of a soft soil layer, but in areas with thick coastal soft soil layers, the foundation treatment depth often cannot reach the specified depth, and at the moment, the settlement calculation problem of the soft soil layer in the subsequent excavation and backfilling construction process needs to be considered in a layering manner.

At present, a settlement calculation method considering the influence of soft soil foundation prepressing excavation backfill construction is not mature, and the main problem is focused on the influence of different construction processes on the stress state of the soft soil foundation. For settlement calculation needing to consider complicated stress history, calculation parameters are difficult to obtain, and the stress state of each stage of soil layer cannot be accurately known. When a large finite element tool is used for simulation calculation, the method has certain limitations and is difficult to guide engineering design due to the fact that finite element parameters are numerous, values are difficult to take, and experience and sensitivity are high.

Disclosure of Invention

In view of the above, the invention provides a settlement calculation method considering the influence of soft soil foundation prepressing excavation backfill construction with high accuracy.

The embodiment of the invention determines the elevation change conditions of the site after pre-pressing, excavating and backfilling construction by analyzing the pre-pressing treatment depth, the load size and the treated consolidation degree of the site, respectively adopts a linear and nonlinear compression modulus method to calculate the total consolidation settlement of a filling layer, the residual total consolidation settlement of a soft soil layer caused by backfilling above the pre-pressing treatment depth and the total consolidation settlement of the soft soil layer below the pre-pressing treatment depth, finally calculates the average consolidation degree of the soft soil layer at different stages according to the backfilling process, calculates the total consolidation settlement and the settlement at each stage, and compares the calculation results with the site monitoring results.

The technical scheme provided by the invention is as follows:

a settlement calculation method considering soft soil foundation prepressing excavation backfill construction influence is characterized in that: the method comprises the following steps:

step 1: determining the pre-pressing treatment depth, the load size and the treated consolidation degree of the field, and determining the elevation change condition of the field after pre-pressing, excavation and backfilling construction;

step 2: calculating the total consolidation settlement of the filling layer;

and step 3: calculating the residual total consolidation settlement of the soft soil layer caused by backfilling above the pre-compaction treatment depth;

and 4, step 4: calculating the total consolidation settlement of the soft soil layer below the pre-pressing treatment depth;

and 5: calculating the average consolidation degree of the soft soil layer at different stages according to the backfilling process;

step 6: and calculating the total consolidation settlement and settlement of each stage, comparing with the on-site monitoring result to determine parameters, and recalculating.

Further, the step 1 comprises the following steps:

step 1.1, determining the field prepressing treatment depth to determine settlement calculation soil layer boundary;

step 1.2, determining the size of a pre-pressing treatment load so as to judge the consolidation state of foundation soil in the excavation and backfilling process;

step 1.3, determining the consolidation degree after treatment to calculate the residual total settlement of the soft soil layer caused by backfilling after pre-pressing treatment;

and step 1.4, determining the elevation change condition of the site after pre-pressing, excavating and backfilling construction so as to determine the magnitude of the additional stress acting on the foundation soil.

Further, the step 2 comprises the following steps:

step 2.1, calculating the total thickness of the filling layer, wherein the total thickness of the filling layer is the height from excavation to the bottom surface of the foundation pit to the final backfilled ground;

2.2, selecting proper filling calculation parameters, wherein the filling calculation parameters comprise a settlement calculation empirical coefficient and a compression modulus; the total consolidation settlement is calculated by adopting the compression modulus of the filled soil, and the reduction of the compression modulus value caused by poor filled soil or the improvement of the compression modulus value after layering and rolling needs to be considered;

and 2.3, calculating the total consolidation settlement of the filled soil under the self-weight stress by adopting a compression modulus method without considering the compression amount in the layered rolling construction process.

Furthermore, the calculation formula of the total consolidation settlement of the filling layer in the step 2 is as follows:

in the formula, S₁Total consolidation settlement of the fill, psi_s-calculating the empirical coefficient of sedimentation, E_si-compression modulus of the fill, p_iTaking the dead weight stress of the fill, h_i-total thickness of the fill layer.

Further, the step 3 comprises the following steps:

step 3.1, determining the thickness of the filling layer after pre-pressing and unloading, wherein the soft soil layer above the treatment depth is in a normal consolidation state again;

step 3.2, calculating the consolidation total settlement of the soft soil layer above the treatment depth caused by filling by adopting the nonlinear compression modulus;

and 3.3, calculating the residual total settlement of the soft soil layer above the treatment depth.

Furthermore, the compressive modulus under stress states of different depths is obtained through the e-p curve of the normal consolidated soil, the total consolidated settlement of the treated soft soil layer caused by soil filling is calculated, and the calculation formula is as follows:

E_si(σ_si)＝a₁σ_si ²+a₂σ_si+a₃

the residual total settlement is the product of the total consolidation settlement and the residual consolidation degree, and the calculation formula is as follows:

S₂＝S₂′(1-U_2t)

in the formula, E_si(σ_si) -nonlinear compressive modulus, σ, of soft soil layers under different stresses_si-vertical stress of the soil layer; a is₁、a₂、a₃-a coefficient; s₂' calculating the total settlement of consolidation of soft soil layer above the treatment depth caused by filling by adopting nonlinear compression modulus psi_s-calculating the empirical coefficient of sedimentation, p_i-additional stresses causing the soft soil layer to continue to settle; h is_i-total thickness of the fill layer; s₂-total settlement of the soft soil layer residue above the treatment depth, U_2tAnd actually measuring the consolidation degree of the soft soil layer after pre-pressing treatment.

Furthermore, in the step 4, the influence of pre-pressing loading, unloading and foundation pit excavation on the soft soil layer below the pre-pressing treatment depth is not considered, namely the soft soil layer below the pre-pressing treatment depth is normal consolidated soil, and the additional stress causing consolidation settlement is the backfill soil gravity;

the calculation method adopts a nonlinear compression modulus method, and the calculation formula is as follows:

in the formula, S₃Soft soil layer Total consolidation Settlement below the Pre-compaction treatment depth, psi_s-calculating the empirical coefficient of sedimentation, p_iAdditional stress, h, causing the soft soil layer to continue to subside_i-total thickness of the fill layer;

wherein E is_si(σ_si) The calculation formula is as follows:

E_si(σ_si)＝a₁σ_si ²+a₂σ_si+a₃

E_si(σ_si) -nonlinear compressive modulus, σ, of soft soil layers under different stresses_si-vertical stress of the soil layer; a is₁、a₂、a₃-a coefficient.

Further, the step of step 5 is as follows: and determining the backfill thickness and the construction gap time of each stage of actual construction, and calculating the average consolidation degree in the backfill process of the soft soil layer by adopting an improved high-handsome method.

Further, the step of step 6 is as follows:

step 6.1, the total consolidation settlement is the sum of the total consolidation settlement of the fill layer, the remaining total consolidation settlement of the soft soil layer above the pre-pressing treatment depth and the total consolidation settlement of the soft soil layer below the pre-pressing treatment depth, and the calculation formula is as follows:

S＝S₁+S₂+S₃

wherein S is₁For total consolidation settlement of the fill, S₂For the remaining total consolidation settlement of soft soil layers above the pre-compaction treatment depth, S₃The soft soil layer is subjected to total consolidation settlement below the pre-pressing treatment depth;

step 6.2, comparing with the field monitoring result, and calibrating the calculation parameter U_tThe settlement calculation of the influence of soft soil foundation prepressing excavation backfill construction is considered again;

the calibration calculation was performed using the following formula:

S_t＝S·U_t

wherein S is_tFor total consolidation settlement, U, monitored in situ_tThe average consolidation degree of the soft soil layer at different stages.

Further, in the present invention,

the backfilling is large-area backfilling, and the reduction of a limited area is considered for backfilling positions close to a basement structure and the like by adding stress;

ground rebound caused by preloading unloading is not considered in the calculation;

foundation and superstructure construction is immediately carried out after foundation pit excavation is assumed, and foundation springback caused by foundation pit excavation is not considered;

compared with the soft soil layer below the prepressing treatment depth, the residual total settlement of the soft soil layer above the prepressing treatment depth can be completed within a period of time after the soft soil layer is backfilled to the designed elevation;

when a linear compression modulus method is adopted, the sedimentation empirical coefficient is 1.5; when the nonlinear compression modulus method is employed, the empirical coefficient of sedimentation is 1.0.

The invention has the following beneficial effects:

(1) compared with the existing method for calculating the settlement change in the construction process by considering the complex stress history or a finite element tool, the method can be applied to various complex working conditions considering the influences of pre-compaction backfill and excavation, improves the accuracy and is convenient to implement.

(2) The calculation method disclosed by the invention is clear in mechanical concept, simple and convenient in calculation, stable in calculation result, reliable and simple, solves the problems of complicated settlement calculation and unreliable result considering the influence of the pre-pressing excavation backfill construction, and provides an effective, simple and convenient practical calculation method for soft soil foundation settlement under the complex construction working condition of actual engineering calculation.

Drawings

FIG. 1 is a flow chart of the steps of an embodiment of the present invention;

FIG. 2 is a calculation chart of the total consolidation settlement of the soft soil layer caused by backfilling above the total consolidation settlement and the pre-compaction treatment depth of the fill layer and the total consolidation settlement of the soft soil layer below the pre-compaction treatment depth;

FIG. 3 is a graph of the present invention illustrating the stacking versus time and consolidation versus time;

FIG. 4 is a graph comparing the calculated settlement at each stage of the construction with the actual measurement monitoring result at the site;

fig. 5 is a soft soil layer e-p curve.

Detailed Description

The invention will be further explained and explained with reference to the drawings and the embodiments in the description. The step numbers in the embodiments of the present invention are set for convenience of illustration only, the order between the steps is not limited at all, and the execution order of each step in the embodiments can be adaptively adjusted according to the understanding of those skilled in the art.

Examples

Referring to fig. 1, an embodiment of the present invention provides a settlement calculation method considering the influence of soft soil foundation pre-compaction excavation backfill construction, including the following steps:

step 1: determining the pre-pressing treatment depth, the load size and the treated consolidation degree of the field, and determining the elevation change condition of the field after pre-pressing, excavation and backfilling construction;

step 2: calculating the total consolidation settlement of the filling layer;

and step 3: calculating the residual total consolidation settlement of the soft soil layer caused by backfilling above the pre-compaction treatment depth;

and 4, step 4: calculating the total consolidation settlement of the soft soil layer below the pre-pressing treatment depth;

and 5: calculating the average consolidation degree of the soft soil layer at different stages according to the backfilling process;

step 6: calculating the total consolidation settlement and settlement of each stage, comparing with a field monitoring result to determine parameters, and recalculating;

specifically, the step 1 includes the following steps:

1.1, determining the field prepressing treatment depth to determine settlement calculation soil layer boundary;

1.2, determining the size of the pre-pressing treatment load so as to judge the consolidation state of the foundation soil in the excavation and backfilling process;

1.3, determining the consolidation degree after treatment to calculate the residual total settlement of the soft soil layer caused by backfilling after pre-pressing treatment;

1.4, determining the elevation change condition of the site after pre-pressing, excavating and backfilling construction so as to determine the magnitude of additional stress acting on foundation soil;

specifically, the step 2 includes the following steps:

2.1, calculating the total thickness of the filling layer, wherein the total thickness of the filling layer is the height from excavation to the bottom surface of the foundation pit to the final backfilled ground;

2.2 selecting proper filling calculation parameters, wherein the calculation parameters comprise a settlement calculation empirical coefficient and a compression modulus; the total consolidation settlement is calculated by adopting the compression modulus of the filled soil, and the reduction of the compression modulus value caused by poor filled soil or the improvement of the compression modulus value after layering and rolling needs to be considered;

2.3 calculating the total consolidation settlement of the filling layer;

calculating the total consolidation settlement of the filling layer, wherein the total consolidation settlement of the filling under the dead weight stress is calculated by adopting a compression modulus method without considering the compression amount in the layered rolling construction process, and the calculation formula is as follows:

in the formula, S₁Total consolidation settlement of the fill, psi_s-calculating the empirical coefficient of sedimentation, E_si-compression modulus of the fill, p_iTaking the dead weight stress of the fill, h_i-total thickness of the fill layer;

specifically, the step 3 includes the following steps:

3.1 determining the thickness of the filling layer after pre-pressing and unloading, and enabling the soft soil layer above the treatment depth to be in a normal consolidation state again;

3.2 calculating the total consolidation settlement of the soft soil layer above the treatment depth caused by filling by adopting the nonlinear compression modulus;

3.3 calculating the residual total settlement of the soft soil layer above the treatment depth.

As shown in fig. 2, when the additional stress caused by the backfill reaches the pre-compaction pressure, the soft soil continues to settle above the treatment depth at the backfill height;

and (3) solving the compression modulus under different depth stress states through a normal consolidated soil e-p curve, and calculating the total consolidated settlement of the treated soft soil layer caused by soil filling, wherein the calculation formula is as follows:

E_si(σ_si)＝a₁σ_si ²+a₂σ_si+a₃

the residual total settlement is the product of the total consolidation settlement and the residual consolidation degree, and the calculation formula is as follows:

S₂＝S₂′(1-U_2t)

in the formula, E_si(σ_si) -nonlinear compressive modulus, σ, of soft soil layers under different stresses_si-vertical stress of the soil layer; a is₁、a₂、a₃-a coefficient; s₂' calculating the total settlement of consolidation of soft soil layer above the treatment depth caused by filling by adopting nonlinear compression modulus psi_s-calculating the empirical coefficient of sedimentation, p_iAdditional stress, h, causing the soft soil layer to continue to subside_i-total thickness of the fill layer; s₂-total settlement of the soft soil layer residue above the treatment depth, U_2tAnd actually measuring the consolidation degree of the soft soil layer after pre-pressing treatment.

Specifically, in the step 4, the influence of the pre-compaction loading, unloading and foundation pit excavation on the soft soil layer below the pre-compaction treatment depth is not considered, namely the soft soil layer below the pre-compaction treatment depth is normal consolidated soil, the additional stress causing the consolidation settlement is the backfill soil gravity, the calculation method adopts a nonlinear compression modulus method, and the calculation formula is as follows:

in the formula, S₃Soft soil layer Total consolidation Settlement below the Pre-compaction treatment depth, psi_s-calculating the empirical coefficient of sedimentation, p_iAdditional stress, h, causing the soft soil layer to continue to subside_i-total thickness of the fill layer;

wherein E is_si(σ_si) The calculation formula is as follows:

E_si(σ_si)＝a₁σ_si ²+a₂σ_si+a₃

E_si(σ_si) -nonlinear compression modulus, σ, of soft soil layers under different stress conditions_si-vertical stress of the soil layer; a is₁、a₂、a₃-a coefficient.

Specifically, in the step 5, as shown in fig. 3, the backfill soil thickness and the construction gap time at each actual construction stage are determined, and the average consolidation degree in the soft soil layer backfilling process is calculated by using an improved handsome method.

Specifically, the step 6, as shown in fig. 4, includes the following steps:

6.1 the total consolidation settlement is equal to the sum of the total consolidation settlement of the filling layer, the remaining total consolidation settlement of the soft soil layer above the prepressing treatment depth and the total consolidation settlement of the soft soil layer below the prepressing treatment depth, and the calculation formula is as follows:

S＝S₁+S₂+S₃

wherein S is₁For total consolidation settlement of the fill, S₂For the remaining total consolidation settlement of soft soil layers above the pre-compaction treatment depth, S₃The soft soil layer is subjected to total consolidation settlement below the pre-pressing treatment depth;

6.2 comparing with the on-site monitoring result to calibrate the calculation parameter U_tCarrying out settlement calculation considering the influence of soft soil foundation prepressing excavation backfill construction again;

the calibration calculation was performed using the following formula:

S_t＝S·U_t

wherein S is_tFor total consolidation settlement, U, monitored in situ_tThe average consolidation degree of the soft soil layer at different stages.

Taking the calculation of total settlement after pre-pressing, foundation pit excavation and backfilling of a certain office building foundation on the soft soil foundation as an example, the pre-pressing treatment depth is known to be 18m, and a soft soil layer with 13.5m is still below the treatment depth. The ground elevation of the field after vacuum preloading treatment is 1.5m, the foundation pit is excavated until the elevation of the pit bottom is-3.75 m, the fertilizer tank of the foundation pit is backfilled to +2.45m, the soil is backfilled to +4.95m for the second time, and finally the field elevation is backfilled to + 5.40- +5.72m through gardens and roads.

Detailed description the concrete implementation steps of the settlement calculation method considering the influence of the soft soil foundation prepressing excavation backfill construction are as follows:

(1) and according to the pre-pressing treatment depth, dividing the whole foundation into three layers of soil for calculation, wherein the three layers of soil are respectively a fill layer, a soft soil layer above the pre-pressing treatment depth and a soft soil layer below the treatment depth. Determining the thickness of the backfill settlement to be 6.1m by taking the excavation bottom elevation of the foundation pit as a standard; and determining the thickness of the filling soil which causes the consolidation and settlement of the lower soft soil layer to be 3.85m based on the elevation of the ground of the field after the vacuum preloading treatment being 1.5 m. When the backfill thickness reaches 3.85m, the lower lying soft soil layer is in a normal consolidation state.

(2) And (5) taking the compression modulus Es of the filling layer as 10MPa, and calculating the self-sedimentation of the filling under the self-weight of the filling.

S₁＝18.5×6.10/2×6.10/10＝34.4mm。

(3) According to the soft soil layer e-p curve, as shown in figure 5.

Calculating the nonlinear relation between the vertical stress sigmaz and the compressive modulus Es as follows:

E_s(σ_z)＝-0.000005σ_z ²+0.0115σ_z+0.0112

the layering thickness is 1.0m, and the nonlinear compression modulus results of the upper and lower soft soil layers of the pre-pressing treatment depth are calculated as follows:

and calculating the total consolidation settlement of the soft soil layer above the pre-pressing treatment depth by adopting the upper surface nonlinear compression modulus: s₂The average value of the soft soil consolidation degree after the field actual measurement prepressing treatment is 85 percent, so the residual total consolidation settlement of the soft soil layer above the prepressing treatment depth is as follows: s₂＝126.1×(1-85％)＝18.9mm。

(4) And (3) calculating by adopting a nonlinear compression modulus to calculate the total consolidation settlement of the soft soil layer with the pre-compaction treatment depth below: s₃＝713.4mm；

(5) Calculating an average consolidation degree curve in the soft soil layer backfilling process by adopting an improved handsome method, wherein the calculation parameters and the process are as follows:

soil series	Severe gamma/kN m-3	Thickness/m	Permeability coefficient kv/cm/s	Compression modulus Es/MPa
					Soft soil layer with more than depth of prepressing treatment	16.8	15.8	-	-
Soft soil layer below prepressing treatment depth	16	13.5	1.32×10-7	1.9

For the treated sludge, the remaining settling amount is assumed to be completed within a certain time after the completion of the loading.

For the sludge which is not pre-pressed and is treated in the lower horizontal position, the calculation parameters in the formula are as follows:

α＝8/π²＝0.8106；

C_v＝k_vE_s1/γ_w＝0.0217

β＝π²×C_v/4H²＝0.00117

in the embodiment, the backfill work is started after the foundation pit is excavated to the pit bottom elevation in 7 months in 2017, and the backfill construction process at the section 1 is calculated as follows:

designing the elevation of a foundation pit slope-laying excavation bottom to be 3.75m within 3-7 months in 2017;

② 11-12 months in 2017, backfilling the foundation pit fertilizer groove from +1.50m to +2.45 m;

③ 5-7 months in 2018, and backfilling the foundation pit to +4.95m for the second time;

fourthly, 10-11 months in 2018, and backfilling the garden to a height of +5.35 m;

calculating the average consolidation degree of the soft soil layer at different stages according to the excavation and backfilling process, wherein the calculation result is shown in figure 3;

(6) total consolidated settlementThe total consolidation settlement of the filling layer, the remaining total consolidation settlement of the soft soil layer above the pre-pressing treatment depth and the total consolidation settlement of the soft soil layer below the pre-pressing treatment depth are equal to the sum: s ═ S₁+S₂+S₃＝873.9mm；

The calculated results of settlement at each stage are compared with the actual measurement results as shown in FIG. 4.

From the calculation results in the step (6), the total settlement calculated by the settlement calculation method considering the influence of the pre-compaction excavation backfill construction, the settlement calculation results of each construction stage are more consistent with the field actual measurement results, and the calibration of the calculation parameters can be carried out on the deviated actual measurement points to carry out the recalculation.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A settlement calculation method considering soft soil foundation prepressing excavation backfill construction influence is characterized in that: the method comprises the following steps:

step 1: determining the pre-pressing treatment depth, the load size and the treated consolidation degree of the field, and determining the elevation change condition of the field after pre-pressing, excavation and backfilling construction;

step 2: calculating the total consolidation settlement of the filling layer;

and step 3: calculating the residual total consolidation settlement of the soft soil layer caused by backfilling above the pre-compaction treatment depth;

and 4, step 4: calculating the total consolidation settlement of the soft soil layer below the pre-pressing treatment depth;

and 5: calculating the average consolidation degree of the soft soil layer at different stages according to the backfilling process;

step 6: and calculating the total consolidation settlement and settlement of each stage, comparing with the on-site monitoring result to determine parameters, and recalculating.

2. The method according to claim 1, wherein the step 1 comprises the steps of:

step 1.1, determining the field prepressing treatment depth to determine settlement calculation soil layer boundary;

step 1.2, determining the size of a pre-pressing treatment load so as to judge the consolidation state of foundation soil in the excavation and backfilling process;

step 1.3, determining the consolidation degree after treatment to calculate the residual total settlement of the soft soil layer caused by backfilling after pre-pressing treatment;

and step 1.4, determining the elevation change condition of the site after pre-pressing, excavating and backfilling construction so as to determine the magnitude of the additional stress acting on the foundation soil.

3. The method according to claim 1, wherein the step 2 comprises the steps of:

step 2.1, calculating the total thickness of the filling layer, wherein the total thickness of the filling layer is the height from excavation to the bottom surface of the foundation pit to the final backfilled ground;

2.2, selecting proper filling calculation parameters, wherein the filling calculation parameters comprise a settlement calculation empirical coefficient and a compression modulus;

and 2.3, calculating the total consolidation settlement of the filled soil under the self-weight stress by adopting a compression modulus method without considering the compression amount in the layered rolling construction process.

4. The method of claim 3 wherein the total consolidated settlement of the fill is calculated by the formula:

in the formula, S₁Total consolidation settlement of the fill, psi_s-calculating the empirical coefficient of sedimentation, E_si-compression modulus of the fill, p_iTaking the dead weight stress of the fill, h_i-total thickness of the fill layer.

5. The method according to claim 1, wherein said step 3 comprises the steps of:

step 3.1, determining the thickness of the filling layer after pre-pressing and unloading, wherein the soft soil layer above the treatment depth is in a normal consolidation state again;

step 3.2, calculating the consolidation total settlement of the soft soil layer above the treatment depth caused by filling by adopting the nonlinear compression modulus;

and 3.3, calculating the residual total settlement of the soft soil layer above the treatment depth.

6. The method of claim 5, wherein: and (3) solving the compression modulus under different depth stress states through a normal consolidated soil e-p curve, and calculating the total consolidated settlement of the treated soft soil layer caused by soil filling, wherein the calculation formula is as follows:

E_si(σ_si)＝a₁σ_si ²+a₂σ_si+a₃

the residual total settlement is the product of the total consolidation settlement and the residual consolidation degree, and the calculation formula is as follows:

S₂＝S₂′(1-U_2t)

in the formula, E_si(σ_si) -nonlinear compressive modulus, σ, of soft soil layers under different stresses_si-vertical stress of the soil layer; a is₁、a₂、a₃Coefficient, S'₂Calculating the total consolidation settlement of the soft soil layer above the treatment depth caused by filling by adopting the nonlinear compression modulus_s-calculating the empirical coefficient of sedimentation, p_iAdditional stress, h, causing the soft soil layer to continue to subside_i-total thickness of the fill layer; s₂-total settlement of the soft soil layer residue above the treatment depth, U_2tAnd actually measuring the consolidation degree of the soft soil layer after pre-pressing treatment.

7. The method according to claim 1, wherein the step 4 does not consider the influence of the preloading loading, unloading and excavation of the foundation pit on the soft soil layer below the preloading depth, namely the soft soil layer below the preloading depth is normal consolidated soil, and the additional stress causing the consolidation settlement is the heavy degree of the backfill soil; the calculation method adopts a nonlinear compression modulus method, and the calculation formula is as follows:

in the formula, S₃Soft soil layer Total consolidation Settlement below the Pre-compaction treatment depth, psi_s-calculating the empirical coefficient of sedimentation, p_iAdditional stress, h, causing the soft soil layer to continue to subside_i-total thickness of the fill layer;

wherein E is_si(σ_si) The calculation formula is as follows:

E_si(σ_si)＝a₁σ_si ²+a₂σ_si+a₃

E_si(σ_si) -nonlinear compressive modulus, σ, of soft soil layers under different stresses_si-vertical stress of the soil layer; a is₁、a₂、a₃-a coefficient.

8. The method of claim 1, wherein the step of step 5 is as follows: and determining the backfill thickness and the construction gap time of each stage of actual construction, and calculating the average consolidation degree in the backfill process of the soft soil layer by adopting an improved high-handsome method.

9. The method of claim 1, wherein the step of step 6 is as follows:

step 6.1, the total consolidation settlement is the sum of the total consolidation settlement of the fill layer, the remaining total consolidation settlement of the soft soil layer above the pre-pressing treatment depth and the total consolidation settlement of the soft soil layer below the pre-pressing treatment depth, and the calculation formula is as follows:

S＝S₁+S₂+S₃

wherein S is₁For total consolidation settlement of the fill, S₂For the remaining total consolidation settlement of soft soil layers above the pre-compaction treatment depth, S₃The soft soil layer is subjected to total consolidation settlement below the pre-pressing treatment depth;

step 6.2, comparing with the field monitoring result, and calibrating the calculation parameter U_tThe settlement calculation of the influence of soft soil foundation prepressing excavation backfill construction is considered again;

the calibration calculation was performed using the following formula:

S_t＝S·U_t

wherein S is_tFor total consolidation settlement, U, monitored in situ_tThe average consolidation degree of the soft soil layer at different stages.

10. The method of claim 1,

the backfilling is large-area backfilling, and the reduction of a limited area is considered for backfilling positions close to a basement structure and the like by adding stress;

ground rebound caused by preloading unloading is not considered in the calculation;

foundation and superstructure construction is immediately carried out after foundation pit excavation is assumed, and foundation springback caused by foundation pit excavation is not considered;

compared with the soft soil layer below the prepressing treatment depth, the residual total settlement of the soft soil layer above the prepressing treatment depth can be completed within a period of time after the soft soil layer is backfilled to the designed elevation;

when a linear compression modulus method is adopted, the sedimentation empirical coefficient is 1.5; when the nonlinear compression modulus method is employed, the empirical coefficient of sedimentation is 1.0.

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