Fluid-solid coupling model based on endochronic damage for roller compacted concrete dam

GU Chong-shi(顾冲时)¹, WEI Bo-wen(魏博文)^{1, 2}, XU Zhen-kai(徐镇凯)², LIU Da-wen(刘大文)¹

(1. College of Water-Conservancy and Hydropower, Hohai University, Nanjing 210098, China;
2. College of Civil Engineering and Architecture, Nanchang University, Nanchang 330031, China)

Abstract:According to the characteristics of thin-layer rolling and pouring construction technology and the complicated mechanical behavior of the roller compacted concrete dam (RCCD) construction interface, a constitutive model of endochronic damage was established based on the endochronic theory and damage mechanics. The proposed model abandons the traditional concept of elastic-plastic yield surface and can better reflect the real behavior of rolled control concrete. Basic equations were proposed for the fluid-solid coupling analysis, and the relationships among the corresponding key physical parameters were also put forward. One three-dimensional finite element method (FEM) program was obtained by studying the FEM type of the seepage-stress coupling intersection of the RCCD. The method was applied to an actual project, and the results show that the fluid-solid interaction influences dam deformation and dam abutment stability, which is in accordance with practice. Therefore, this model provides a new method for revealing the mechanical behavior of RCCD under the coupling field.

Key words:roller compacted concrete dam; endochronic damage; fluid-solid coupling; analytical model