Abstract
Shock wave and bubble pulsation caused by underwater explosion destroy the hydraulic structure. However, the realization of the underwater explosion prototype test is restricted by many factors, such as the site environment. Furthermore, the repeatability of the test scheme is not strong. The centrifuge scale test provides a new way of studying the damage degree of the structure under the action of underwater explosion. The similarity relationship refers to the bridge between the scaled model and the prototype, which cannot achieve complete similarity in practice. The centrifuge-scaled model test is performed by increasing the acceleration of a certain multiple. Meanwhile, the model reduces the corresponding ratio in the geometric layout to achieve the geometric similarity with the prototype test. Therefore, the applicability of the centrifuge scaling method in the study of the dynamic response of the structure in underwater explosion needs to be explored further. In this work, the underwater explosion scaling test numerical model for 1 g RDX (equivalent to 1.62 g TNT) charge under different centrifugal acceleration conditions is established, and the calculation results of underwater pressure and dynamic response of the steel plate are compared with the centrifuge test results. A prototype model is established to study the similarity relationship between the centrifuge scale test and the prototype model when the steel plate structure is in the stage of small deformation and linear elasticity. The application of the similarity ratio in the scale test of underwater explosion the centrifuge is discussed. The application of the centrifuge in the study of the failure response of the hydraulic structure in underwater explosion is expanded by establishing the model and comparing with the experimental results.
Highlights
Underwater explosion causes very serious damage to hydraulic structures
The numerical model of the steel plate in underwater explosion of the centrifuge is established, and the reliability of the numerical model is preliminarily verified by comparing with the time history curve of pressure in water and the strain curve of the steel plate measured by the experiment. e centrifuge scale test aims to simulate the dynamic mechanical test of the prototype by applying certain acceleration
Corresponding to different acceleration conditions, this paper establishes the corresponding enlarged size prototype model and further explores the feasibility of the centrifuge scale-down test in studying the dynamic response of the structure under the action of underwater explosion. is paper draws the following conclusions through the comparative analysis of numerical simulation and experiment: (1) By selecting appropriate material parameters and modeling method, the dynamic behavior of underwater explosion and the dynamic response of the steel plate under underwater explosion can be simulated well, which is suitable for the case of G n g (n > 1) and G 1 g
Summary
Underwater explosion causes very serious damage to hydraulic structures. Compared with air explosion, the power of underwater explosion is greater. e damage process of underwater explosion to the structure is mainly divided into two parts: shock wave and bubble pulsation. Wang et al [14] studied the law of underwater explosion shock wave and bubble pulsation under the additional acceleration of the centrifuge through the centrifuge scale model test and numerical simulation; they analyzed the influence of the water equation of state and boundary conditions on the numerical simulation results. For the dynamic response of hydraulic structures in underwater explosions, the applicability of the centrifuge scale model remains to be studied. Rough comparison with the centrifuge scale model, the feasibility of the similarity law in studying the dynamic response of the structure under the action of underwater explosion is discussed. Is paper expands the application of centrifuges in the study of the failure response of hydraulic structures in underwater explosions by establishing a model and comparing it with the test results For the dynamic response of hydraulic structures in underwater explosions, the applicability of the centrifuge scale model remains to be studied. is paper establishes a numerical model for the scale-down test of the underwater explosion of the centrifuge, analyzes the water pressure in the underwater explosion test of the centrifuge and the dynamic response of the steel plate structure, and verifies the reliability of the model by comparing the test results with the numerical simulation results. en, the corresponding prototype underwater explosion numerical model is established. rough comparison with the centrifuge scale model, the feasibility of the similarity law in studying the dynamic response of the structure under the action of underwater explosion is discussed. is paper expands the application of centrifuges in the study of the failure response of hydraulic structures in underwater explosions by establishing a model and comparing it with the test results
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