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      Experimental Study on Permeability Coefficient in Layered Fine Tailings under Seepage Condition

      1 , 1 , 2 , 1 , 1
      Geofluids
      Hindawi Limited

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          Abstract

          Nearly half of the tailings dams in China are in a state of high-security risks and overservice, and the safety of these tailings dams has always been a concern for relevant scholars. The seepage characteristics of tailings are one of the essential factors affecting the safety of tailings dam. Now, due to the improvement of mineral processing technology, there are many fine tailings dam; the study of the seepage characteristics of the tailings dam is no longer applicable. Fine-grained tailings form uneven deposition in these tailings dams, resulting in the permeability of tailings not conforming to the previous law. Therefore, it is of great significance to study the permeability of fine-grained tailings with uneven deposition. In this paper, the physical model of the simulated tailings dam is established to study the influence of the dry beach slope on the distribution and deposition law of fine tailings during discharge. The test results show that the average particle size of tailings decreases along the length of dry beach, showing the phenomenon of coarsening upstream and thinning downstream. Then, based on the data of fine tailings deposition, the variation characteristics of the permeability coefficient of layered tailings under stable and unstable seepage conditions are studied. The test results show that the variation process of tailings permeability coefficient can be divided into four stages: rapid compaction stage, slow compaction stage, failure stage, and stable stage. Under stable and unstable seepage conditions, the permeability coefficients of unstratified tailing sand are about 10% and 15% higher, respectively, than those in the initial state. The permeability coefficient of layered tailings formed by uneven settlement changes more obviously, which is about 12% and 20% higher than the initial state.

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          Development of check-dam systems in gullies on the Loess Plateau, China

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            Improved Nonlinear Nishihara Shear Creep Model with Variable Parameters for Rock-Like Materials

            Creep property is an important mechanical property of rocks. Given the complexity of rock masses, mechanical parameters change with time in the creep process. In this work, a nonlinear function for describing the time-dependent change of parameters was introduced and an improved variable-parameter nonlinear Nishihara shear creep model of rocks was established. By creating rock-like materials, the mechanical properties of rocks under the shear creep test condition were studied, and the deformation characteristics and long-term shear strength of rocks during creep were analyzed. The material parameters of the model were identified using the creep test results. Comparison of the model’s calculated values and experimental data indicated that the model can describe the creep characteristics of rocks well, thus proving the correctness and rationality of the improved model. During shear creep, the mechanical properties of rocks have an aging effect and show hardening characteristics under low shear stress. Furthermore, according to the fact that G k of the nonlinear model can characterize the creep deformation resistance, a method to determine the long-term shear strength is proposed.
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              Colmation as one of the processes in interaction between the groundwater and surface water

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                Author and article information

                Contributors
                Journal
                Geofluids
                Geofluids
                Hindawi Limited
                1468-8123
                1468-8115
                April 15 2021
                April 15 2021
                : 2021
                : 1-14
                Affiliations
                [1 ]School of Resources and Safety Engineering, Central South University, Changsha 410083, China
                [2 ]School of Resource Environment and Safety Engineering, University of South China, Hengyang, Hunan 421001, China
                Article
                10.1155/2021/8850138
                d08fddfc-ee53-409e-984d-f85cac7f3650
                © 2021

                https://creativecommons.org/licenses/by/4.0/

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