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Measuring method capable of simulating lunar soil mechanical properties in low-gravity environment

A low-gravity environment and measurement method technology, applied in the field of geotechnical testing, can solve the problems of short time in low-gravity environment, limited types and times of tests, and expensive tests, so that the test time is not limited, and the test results are reliable and true. Experiment with highly reproducible effects

Inactive Publication Date: 2015-04-15
JILIN UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Among them, the aircraft parabolic flight method and the drop tower method are expensive to test, the time to obtain a low-gravity environment is short, the performance is unstable, and the reproducibility is poor, and the types and times of tests that can be completed are limited; the gravity compensation method (suspension method) is not suitable. It is suitable for studying the mechanical properties of lunar soil in a low-gravity environment; it is difficult to find suitable lightweight materials as raw materials for preparing simulated lunar soil by light soil method; computer simulation method strongly relies on basic models and comparable test data, and available and reliable Experimental data are quite limited
[0005] In summary, the existing test methods for simulating the mechanical properties of lunar soil are difficult to study the influence of low gravity environment on the mechanical properties of simulated lunar soil

Method used

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  • Measuring method capable of simulating lunar soil mechanical properties in low-gravity environment
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  • Measuring method capable of simulating lunar soil mechanical properties in low-gravity environment

Examples

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no. 1 example

[0082] Test method for measuring physical strength distribution of granular bodies:

[0083] 1.1 Test material

[0084] The lunar soil is simulated by the JLU series of Jilin University, and JLU-1, JLU-2, and JLU-4 are selected to simulate the lunar soil.

[0085] Table 1 shows the basic physical parameters of the simulated lunar soil used in the test.

[0086]

[0087] 1.2 Test plan

[0088] During the test, a simulated lunar soil with a height of 300 mm was placed, and the height of the test points in the soil tank was 3, which were 100 mm, 150 mm and 200 mm from the surface of the simulated lunar soil; the spatial coordinates of the test points are shown in Table 2, and the plane arrangement of the points like Image 6 As shown, there are a total of 21 test points. In order to reduce the influence of over-density sensor embedding on the mechanical properties of the simulated lunar soil in the soil tank during the test, only 3 or 4 sensors are embedded in each test to...

no. 2 example

[0107] A test method for determining the penetration characteristics of simulated lunar soil in a low-gravity environment.

[0108] 1.1 Test material

[0109] The JLU series of lunar soil simulations invented by Li Jianqiao's research group at Jilin University selected JLU-1 and JLU-2 to simulate lunar soil.

[0110] 1.2 Test plan

[0111] Using the low-gravity environment simulation test device, the penetration characteristic curve is measured by applying a normal load to the simulated lunar soil in the soil tank with the conical probe. In order to obtain the penetration performance of the simulated lunar soil under different bulk densities, the simulated lunar soil was prepared in two states during the test, namely: loose and natural.

[0112] The test factors include five inclination angles (including vertical), simulated lunar soil with two particle sizes, two bulk density states, two conical probes with two radii, two reduction speeds, five test points, and two repeated...

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Abstract

The invention discloses a measuring method capable of simulating lunar soil mechanical properties in low-gravity environment. According to the method, a special low-gravity environment simulation device is used, through an inclined test table, low-gravity environment is simulated in component force directions, and various component forces generated in the inclination process are related to the inclination angle; in the simulation process, the force-bearing condition inside the soil mass is detected through a granular mixture force distribution test, so that the detection is taken as a basic test of the measuring test for simulating the lunar soil mechanical properties; the method is used for evaluating mechanical property parameters of the simulated lunar soil in a 1g of gravity field and a low-gravity field, wherein the parameters include subsidence index n, cohesion deformation modulus KC, friction deformation modulus k phi, internal friction angle phi, cohesion c, and cone index CI value; and the parameters can be obtained through a pressure-bearing characteristic test, a shear characteristic test and a penetration characteristic test for simulating lunar soil. According to the measuring method, the special low-gravity environment simulation device is utilized, and the test of simulating soil mechanical parameters in the 1g of ground gravity environment and the low-gravity environment can be finished simultaneously, so that the differences of the mechanical properties of the lunar soil in different gravity fields can be comparatively analyzed, and the interaction relation of soil machines in deep space gravity environment can be revealed.

Description

technical field [0001] The present invention relates to the technical field of geotechnical testing. Specifically, it relates to a method for measuring the mechanical properties of simulated lunar soil in a low-gravity environment. Background technique [0002] The lunar soil is on the surface of the moon, which is different from the formation process of the earth's soil. It is in the O 2 , Formed by impact, bombardment and other processes in the absence of water, etc., and has the characteristics of loose, non-consolidated, and fine particles. [0003] The lunar surface gravity environment is 1 / 6 of the ground gravity. The low gravity environment makes the binding force between lunar soil particles smaller than the binding force between simulated lunar soil particles in the surface environment, which in turn affects the pressure bearing and shear resistance of the lunar soil. In order to ensure the smooth implementation of missions such as lunar surface inspection, sampli...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N33/24
Inventor 邹猛石睿杨刘国敏李建桥樊世超杨艳静何玲张晓东黄涵赵振家
Owner JILIN UNIV
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