A Method of Quickly Testing Foundation Soil Compaction Using Penetrometer
A technology of foundation soil and penetrometer, which is applied in the direction of foundation structure test, foundation structure engineering, on-site foundation soil survey, etc. It can solve the problems of high detection frequency, slow detection result, slow detection speed, etc., and achieve small error, The principle is simple and the effect of high accuracy
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Embodiment 1
[0034] A method for quickly detecting the degree of compaction of foundation soil using a penetrometer in this embodiment, the specific steps are:
[0035] Step 1. Randomly select 25 filling construction sites within the target detection area. The target detection area in this embodiment is Shannan New District, Huainan City, Anhui Province. A piece of foundation soil area to be tested is randomly selected at the filling construction site, and samples to be tested are taken from the foundation soil area to be tested and sent to the laboratory for compaction tests to obtain the maximum dry density and optimum moisture content of the samples. The concrete operation steps that present embodiment obtains maximum dry density and optimum water content are:
[0036] (1) Take 20kg of the sample to be tested by the quartering method, air-dry and crush it through a 5mm round hole sieve, mix the soil sample under the sieve, and measure the air-dried moisture content of the sample to be t...
Embodiment 2
[0052] A method for quickly detecting foundation soil compaction using a penetrometer in this embodiment is basically the same as in Embodiment 1, except that the target detection area in this embodiment is Panji District, Huainan City, Anhui Province. 21 filling construction sites were randomly selected in the area; the unary regression equation obtained in this embodiment is y=0.048x+12.81, and the obtained 21 groups of sample information are shown in Table 2;
[0053] Table 2 Penetration resistance value-dry density data in Panji District, Huainan City
[0054]
[0055] The difference between the dry density of the foundation soil calculated by the unary regression equation obtained in this embodiment and the dry density of the parallel samples measured in the laboratory is only 2.97%, and this error has little influence on the accuracy of the detection of the compactness of the foundation soil in this embodiment , can be ignored.
Embodiment 3
[0057] A method for quickly detecting foundation soil compaction using a penetrometer in this embodiment is basically the same as in Embodiment 1, except that the target detection area in this embodiment is Fengtai District, Huainan City, Anhui Province, and Fengtai 18 filling construction sites were randomly selected in the area; the unary regression equation obtained in this embodiment is y=0.0537x+12.2, and the obtained 18 groups of sample information are shown in Table 3;
[0058] Table 3 Penetration resistance value-dry density data in Fengtai District, Huainan City
[0059]
[0060] The difference between the dry density of the foundation soil calculated by the unitary regression equation obtained in this embodiment and the dry density of the parallel samples measured in the laboratory is only 3.03%, and this error has little influence on the accuracy of the detection of the compactness of the foundation soil in this embodiment , can be ignored.
[0061] In this embo...
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