4.6 Article

Development of a Model Material for Dynamic Geotechnical Model Tests

期刊

APPLIED SCIENCES-BASEL
卷 12, 期 11, 页码 -

出版社

MDPI
DOI: 10.3390/app12115344

关键词

sandstone; similar materials; orthogonal test; dynamic and static physico-mechanical parameters; sensitivity analysis; multiple linear regression analysis

资金

  1. Chinese National Key RD Program [2019YFC1509705]
  2. National Natural Science Foundation of China [41931295, 41877258, 41877259]

向作者/读者索取更多资源

A model material suitable for analyzing the stability of sandstone slopes during strong earthquakes was developed by designing an orthogonal test and selecting dynamic and static parameters. Sensitivity analysis and multiple linear regression analysis were used to establish the quantitative relationship between physico-mechanical parameters and component proportions, and determine the suitable proportions for a model of the rock mass in a specific area.
To develop a model material suitable for analysing the stability of sandstone slopes during strong earthquakes, an orthogonal test was designed by selecting seven physico-mechemical parameters, a combination of dynamic and static parameters, as research indexes. Then, the influence of the proportion of each component in the model material on each test index was determined by sensitivity analysis, and the quantitative relationship between physico-mechanical parameters and component proportions was established by multiple linear regression analysis to develop a model material similar to sandstone. Finally, a sandstone slope along the Duxiang Expressway was taken as an example, and the proportions of the components suitable for a model of the rock mass in this area were determined. The test results showed that (1) the physico-mechanical parameters selected for the dynamic and static tests were used to effectively develop model materials for dynamic geotechnical model tests; (2) samples of model materials composed of barite powder, quartz sand, ferric powder, gypsum and cement met the requirements for dynamic testing of geotechnical models of sandstone slopes; and (3) through sensitivity analysis of various factors and multiple linear regression analysis, the required model materials were efficiently configured, and the failure mode, failure process and physico-mechanical parameters of the model materials accurately simulated the original rock materials.

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