KR100942171B1 - Test method for determining long-term compressive creep of geosynthetics - Google Patents

Abstract

The present invention relates to an accelerated compression creep method of drainage geosynthetics for calculating accurate performance index reflecting the actual use state of the drainage geosynthetics used in civil engineering.

According to a preferred embodiment of the present invention, the method of accelerated compression creep of drainage geosynthetics, in the method of accelerated compression creep test of the test piece of drainage geosynthetics in order to calculate the performance index of the drainage geosynthetics The angle of inclination is adjusted to the angle of inclination of the slope to be constructed, the temperature of the specimen is gradually raised, and compressive stress is applied. In addition, the temperature rising of a test piece consists of heating of the clamp holding the said test piece.

As a result, more accurate measurement data can be obtained by using the accelerated compression creep method considering the inclination angle of the actual slope and the accelerated compression creep method in which the test piece is heated by the direct heating of the clamp. Therefore, the performance of the geosynthetics for drainage calculated therefrom is obtained. The reliability of the indicator is increased.

Geosynthetics, Test Specimen, Creep, Clamp

Description

Test method for determining long-term compressive creep of geosynthetics

The present invention relates to a method for testing creep performance of a test piece of drainage geosynthetics used in civil engineering, and in particular, accelerated compression creep of drainage geosynthetics for calculating accurate performance indicators reflecting actual use conditions. It is related to the method.

Geosynthetics is a product made from polymer raw materials, used with soil, rock and ground in civil engineering, construction, or other civil engineering technologies. Geotextiles, Geomembranes, Geogrid There are various types of products such as Geogrid, Geocomponent, Geonet, Plastic drain board, Geomat, and GCLs (Geosynthetic Clay Liners).

These geosynthetics are mainly used for leachate or gas spill prevention and slope reinforcement, soft ground reinforcement, retaining wall and slope protection, groundwater or surface water drainage.

Among them, geosynthetics used for drainage reduces the thickness of the product due to long-term compression due to the load of soil, etc., thereby reducing the horizontal transmissivity. The method of evaluating life is specified in the Reliability Standard (RS).

Drainage geosynthetics is considered to have reached the end of their life when excessive creep deformation occurs, resulting in a decrease in thickness due to prolonged compression resulting in a decrease in horizontal transmission. In order to predict the life of the geosynthetics for drainage by creep deformation or to estimate the thickness of the geosynthetics for drainage during installation to have the required life in the field, a constant load, stress on the test specimen of the drainage geosynthetics Stepped Isothermal Method (SIM or Accelerated Creep Test), which is a creep test performed by gradually raising the test temperature under the test, and a Lamp & Hold test method, which is a creep test performed for a short time, are used. .

The step isothermal method is performed using a compression tester specified in ASTM D 6364, which is roughly as follows.

First, after holding the test piece of drainage geosynthetics at the center of the clamp of the compression tester, the initial stress (20 kPa) is gently applied. After that, the compressive creep stress is naturally applied, and then the moving distance of the clamp is continuously measured and recorded at least twice per minute. At this time, the standard temperature should be tested at 20 ± 2 ℃, and the temperature level is increased by at least 5 steps considering the transition temperature such as glass transition temperature and heat deformation temperature of the material. At this time, the compression creep strain measurement time at each temperature step should be at least 10000 seconds, and the total test time should be at least 60000 seconds. At the end of the test, record the movement of the lower clamp. Repeat this test for at least three samples.

As a result of this accelerated creep test, the drainage geosynthesis was calculated from the stepwise temperature conditions, the compressive stress, and the compressive strain to calculate the thickness at 100 hours after the installation of the drainage geosynthetics or the compressive creep thickness at the site required life or the B _100P life. Use it as an indicator of performance.

The compressive stress and compressive strain obtained as a result of the step isothermal method should be measured by the test according to the exact conditions as the variables for calculating the above-mentioned performance index, and the conditions for this are RS K 0029, the reliability standard proposed by the Ministry of Commerce, Industry and Energy It is established by method standard in.

Conventional compressive stress and compressive strain are measured in a temperature environment in which the test piece is held at an inclination angle by a clamp having a fixed fixed inclination, and a step temperature is elevated in a vertically downward stress.

However, the slope of the soil, etc. in which the actual drainage geosynthetics is used is different every time, and the direction of action of the stress transmitted from the upper side varies according to the slope.

In other words, the stress in the actual site may be considered by dividing it into a direction parallel to the surface of the drainage geosynthetics and its normal direction according to the slope of the soil in which the drainage geosynthetics is installed, which has a fixed inclination angle. There is a difference from the distribution of stress applied to the test piece according to the conventional accelerated compression creep method by the step isothermal method.

Therefore, the larger the difference between the inclination angle of the drainage geosynthetics is actually installed and the inclination angle of the test piece to be carried out in the laboratory, the lower the reliability of the performance indicators obtained in the laboratory occurs. Due to this difference, it is difficult to reflect the performance index obtained only by the test data in the field as it is, and construction by the wrong performance index may cause a large accident in the future.

In addition, according to the conventional method, the step-up temperature of the test piece raises the external atmosphere of the clamp holding the test piece, and this external ambient temperature adopts a method of heat transfer to the test piece. For this purpose, both the metallic clamp and the test piece are used. The time required for thermal equilibrium to reach the same temperature as the external atmospheric temperature is long, and it is difficult to accurately raise the temperature of the specimen. Therefore, there is a problem that it is difficult to obtain accurate measurement data such as compression strain by adjusting the temperature due to the nature of geosynthetics having a strain sensitive to temperature.

The present invention has been made to solve the above-described problems, in the accelerated compression creep test of the geosynthetics for drainage, since the accelerated compression creep test is made in consideration of the inclination angle of the soil to be constructed, the compressive stress and compressive strain It is aimed to be able to obtain accurate measurement data such as.

In addition, the temperature of the test piece is accurately stepped up to obtain accurate test data to increase the reliability of the calculated performance index.

As a means for solving the above-described problems, an embodiment of the present invention, in the method for accelerated compression creep test of the test piece of the geosynthetics for drainage geosynthetics for drainage, the inclination angle of the test piece Geosynthetics for drainage, characterized in that according to the inclination angle of the slope to be constructed, the temperature of the test piece is gradually raised, applying a compressive stress, and the temperature of the test piece is heated by a clamp for holding the test piece An accelerated compression creep method is presented.

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According to a preferred embodiment of the present invention, since the creep characteristics of the test piece are measured under the same angle conditions as the angle of the slope where the drainage geosynthetics is used, the measurement data for the test piece of the drainage geosynthetics can be measured more accurately. In addition, the reliability of the performance index of the geosynthetics for drainage calculated by the measurement data is increased.

In addition, in the case of adopting the accelerated compression creep method in which the clamp holding the test piece is heated to heat transfer to the test piece, the test piece can be heated up more precisely, which has the effect of reducing the error of the measurement data.

When performing the accelerated compression creep method in consideration of the inclination angle of the actual slope and the accelerated compression creep method in which the test piece is heated by the direct heating of the clamp at the same time, more accurate measurement data can be obtained. The reliability of the performance index of synthetics is further increased.

Hereinafter, an accelerated compression creep method of geosynthetics for drainage according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS It is sectional drawing which shows roughly the accelerated compression creep method of the test piece in accordance with the accelerated compression creep method of the drainage geosynthetics. However, the block arrow is the direction in which the compressive stress is applied, the solid arrow is the movable direction of each clamp.

On the other hand, the specific test method except the accelerated compression creep method described later is "Evaluation of Accelerated Compression Creep Life of Drainage Geosynthetics: Step Isothermal Method" provided by the "FITI Test Institute Reliability Evaluation Center" RS K 0029 (2007.10. 01).

According to the accelerated compression creep method of the geosynthetics for drainage according to a preferred embodiment of the present invention, in the process of seating the test piece in the accelerated compression device for applying a compressive stress to the test piece of the geosynthetics for drainage, the installation angle of the test piece is constructed The angle of inclination of the slope is to be adjusted.

In other words, if the soil where the geosynthetics for drainage is actually installed is a slope, the test of the specimen is set to the same or similar inclination angle as the slope, so that the compressive stress applied by the clamp to which the specimen is held can be accurately distributed to the specimen. .

To this end, the clamp 1 capable of adjusting the inclination angle of the test piece may have the following configuration, as shown in FIG. 1 as an example.

The angle at which the inclination angle A can be changed between the upper compression clamp 10 fixed to the lower part of a separate stress applying device (not shown) and the lower compression clamp 20 placed on the roller 21 installed on the ground. An adjustable clamp 30 is provided.

At this time, the angle adjustment clamp 30 has a semi-cylindrical upper angle adjustment clamp 31 gripped on the curved surface formed on the lower portion of the upper compression clamp, and the semi-cylindrical lower angle adjustment clamp 32 gripped on the curved surface formed on the upper compression clamp. ), The test piece (G) is gripped with an approximately flat contact surface facing the upper angle adjustment clamp (31) and the lower angle adjustment clamp (32).

That is, the shape in which the upper angle adjusting clamp 31 and the lower angle adjusting clamp 32 in which the test piece G is held is stacked has a substantially cylindrical shape, and the upper and lower clamps 10 and 20 are connected to the test piece G. It is configured to be rotatable according to the required inclination angle A.

If the clamp having such a configuration is utilized, when the lower angle adjustment clamp is placed in the lower compression clamp, the test piece and the upper angle adjustment clamp are placed so as to have an inclination angle according to the inclination angle of the slope where the actual drainage geosynthetics is installed. And an upper compression clamp.

However, the clamp 1 presented here is one example for adjusting the inclination angle of the test piece intended by the present invention, and one of the clamps having various fixed angles in general may be selected and used for the test. have.

On the other hand, the temperature rise of the test piece by the step isothermal method is made in such a way that the elevated temperature of the clamp is heat-transferred to the held test piece by heating of the clamp holding the test piece.

To this end, when the aforementioned angle adjusting clamp 1 is used, the angle adjusting clamp 30 is heated to a temperature required for the test by using heating means such as an electric heating wire 40 provided in the angle adjusting clamp 30. In addition, a method in which the elevated temperature is directly conducted to the test piece G held by the angle adjusting clamp 30 may be used.

In this case, the drainage geosynthetics is sensitively changed in creep strain according to the temperature of the material.The temperature of the clamp is directly conducted to the test specimen so that the temperature data required for the test specimen can be precisely matched, thereby making the measurement data more accurate. .

Measurement data such as compressive stress and compressive strain obtained by adopting the accelerated compression creep method of the geosynthetics for drainage are compared to the conventional accelerated compression creep method having a fixed inclination angle under an inclination angle condition close to the actual use environment. As a result, more accurate performance indicators can be calculated.

In addition, since the clamp can be directly heated to raise the temperature of the test piece accurately, the experiment can be performed under precise conditions as compared with the conventional accelerated compression creep method in which the temperature outside the clamp is raised to meet the temperature conditions.

Therefore, the accelerated compression of the geosynthetics for drainage according to the embodiment of the present invention, which adjusts the inclination angle of the test piece according to the inclination angle of the inclined paper actually used as described above and the exact temperature condition of the test piece by the clamp with heating means. The creep method has an effect that it is possible to calculate a more accurate performance index of the geosynthetics for drainage than the conventional accelerated compression creep method.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view schematically showing an accelerated compression creep method of a test piece according to the accelerated compression creep method of the present inventors geosynthetics.

* Description of the major reference numerals in the drawing *

1: Clamp A: Inclination Angle

10: upper compression clamp 20: lower compression clamp

21: roller 30: angle adjustment clamp

31: upper angle adjustment clamp 32: lower angle adjustment clamp

40: heating part G: geosynthetics, test piece

Claims (2)

delete In the method of accelerated compression creep test of the test piece of the geosynthetics for drainage in order to calculate the performance index of the geosynthetics for drainage, The inclination angle of the test piece is made according to the inclination angle of the inclined paper to be constructed, the temperature of the test piece is gradually raised, and a compressive stress is applied. The temperature increase of the said test piece is accelerated compression creep method of geosynthetics for drainage, characterized in that the heating of the clamp holding the test piece.

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