结构工程
铆钉
透水混凝土
使用寿命
多孔性
材料科学
损伤容限
残余强度
强度因子
应力集中
灾难性故障
工程类
断裂力学
复合材料
水泥
复合数
作者
Cheng Lv,Kejie Wang,Xiang Zhao,Fenghui Wang
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2023-12-29
卷期号:17 (1): 192-192
被引量:8
摘要
Rivets are usually used to connect the skin of an aircraft with joints such as frames and stringers, so the skin of the connection part is a porous structure. During the service of the aircraft, cracks appear in some difficult-to-detect parts of the skin porous structure, which causes great difficulties in the service life prediction and health monitoring of the aircraft. In this paper, a secondary development subroutine in PYTHON based on ABAQUS-XFEM is compiled to analyze the cracks that are difficult to monitor in the porous structure of aircraft skin joints. The program can automatically analyze the stress intensity factor of the crack tip with different lengths in the porous structure, and then the residual fatigue life can be deduced. For the sake of safety, the program adopts a more conservative algorithm. In comparison with the physical fatigue test results, the fatigue life of the simulation results is 16% smaller. This project provides a feasible simulation method for fatigue life prediction of porous structures. It lays a foundation for the subsequent establishment of digital twins for damage monitoring of aircraft porous structures.
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