This dataset contains the cracking data results of the simplified numerical calculation of the Wudongde High Arch Dam, including the crack propagation, as well as the calculation results of the dam's axial horizontal displacement, along river horizontal displacement, and vertical displacement.
This dataset adopts the FEM+DDA coupling method, and the finite element modeling is based on the actual design dimensions.
The dataset results can be viewed or edited through various software in this article.
In this dataset, there are two processes, each containing two files: 'disout' and 'gidres'.' disout 'includes: horizontal displacement along the dam axis (m), horizontal displacement along the river direction (m), and vertical displacement (m); Gidres "includes the analysis and calculation results of two pathological disaster damage processes in the numerical model of high concrete dams based on FEM-DDA continuous discontinuous cracking propagation technology. Contains msh files and res files, need to download gid to open.
| collect time | 2025/01/01 - 2025/03/12 |
|---|---|
| collect place | Geheyan Hydropower Station |
| data size | 1.8 GiB |
| data format | *.txt,*.msh,*.res |
This data was calculated using the "SAPTIS-DDA" independently developed by the Hydroelectric Center of the Chinese Academy of Water Resources.
The calculation mainly uses the finite element software SAPTIS, and the FEM-DDA coupling algorithm is derived from the basic theory of finite elements, relevant works of Academician Zhu Bofang, software manuals, etc.
The simulation calculation values have been verified through feedback, and the stress cloud map distribution pattern conforms to common sense, indicating accurate model verification; The simulation of the cracking and damage process of the dam conforms to objective laws, which can be used to study the mechanism of pathological disasters.
| # | number | name | type |
| 1 | 2021YFC3090102 | National key R & D plan |
This work is licensed under
CC BY 4.0 (Creative Commons Attribution 4.0 International License).
| # | title | file size |
|---|---|---|
| 1 | 单边矩形 | |
| 2 | 双边矩形 |
| # | category | title | author | year |
|---|---|---|---|---|
| 1 | achievements | Prediction Technology and Method for Disaster Process of High Concrete Dam Damage | Zhou Qiujing | 2024 |
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