Experimental Analysis on Strength Characteristics of Sedimentary Clay Minerals in Yangtze River Basin Based on Electrochemical Technology

Abstract

ABSTRACT Yang, J.; Xia, Y., and Zhang, L., 2019. Experimental analysis on strength characteristics of sedimentary clay minerals in Yangtze River Basin based on electrochemical technology. In: Guido-Aldana, P.A. and Mulahasan, S. (eds.), Advances in Water Resources and Exploration. Journal of Coastal Research, Special Issue No. 93, pp. 83–89. Coconut Creek (Florida), ISSN 0749-0208. In order to improve the experimental analysis ability of strength characteristics of sedimentary clay minerals in the Yangtze River Basin, a regulation model of electrochemical properties of sedimentary clay minerals in the Yangtze River Basin based on electrochemical technology and direct functional control is proposed. The control model of carbonyl allylation reaction of sedimentary clay minerals in the Yangtze River Basin is constructed, and the electrochemical reaction control model of the strength characteristics test of sedimentary clay minerals in the Yangtze River Basin is designed. Combined with the adaptive feedback fusion parameter adjustment method, the polar parameters in the electrochemical regulation and control of sedimentary clay minerals in the Yangtze River Basin are adjusted, the process of regulation and control of sedimentary clay minerals in the Yangtze River Basin is controlled by the electrochemical characteristic analysis method, and the steady state regulation and control of the electrochemical properties of the deposited clay minerals in the Yangtze River Basin is realized by introducing hetero-atomic functional groups. The electrochemical reaction was used to adjust the molecular catalytic reaction in the preparation of sedimentary clay minerals in the Yangtze River Basin, and the experimental analysis of the strength characteristics of sedimentary clay minerals in the Yangtze River Basin was realized. The test results show that the electrochemical performance of sedimentary clay minerals in the Yangtze River Basin is stable, the catalytic ability is strong, and the electrochemical control stability is improved, and the accuracy of the strength test of sedimentary clay minerals in the Yangtze River Basin is high.