Finite element simulation of ultra low cycle fatigue cracking in steel structures

被引:31
作者
Amiri, H. R. [1 ]
Aghakouchak, A. A. [1 ]
Shahbeyk, S. [1 ]
Engelhardt, M. D. [2 ]
机构
[1] Tarbiat Modares Univ, Fac Civil & Environm Engn, Tehran, Iran
[2] Univ Texas Austin, Dept Civil Architectural & Environm Engn, Austin, TX 78712 USA
来源
JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH | 2013年 / 89卷
关键词
Ultra-low cycle fatigue; Cyclic void growth; Ductile fracture; Crack propagation; Steel structures; DUCTILE FRACTURE; PREDICTION; STRENGTH;
D O I
10.1016/j.jcsr.2013.07.007
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
This paper proposes a new method of simulating ductile fracture in steel structures under large amplitude cyclic straining experienced in earthquakes. The method is developed based on an existing micromechanical model originally proposed for predicting crack initiation in ultra-low cycle fatigue, ULCF. It involves a step-by-step simulation of material degradation within the framework of conventional nonlinear FEM. The method is validated through simulating fracture in a structural detail (column-to-base plate connection) for which several cyclic tests has been previously conducted. It is found that the method can successfully predict the cracking site, its propagation path, the number of cycles corresponding to crack initiation, and also final fracture. (C) 2013 Elsevier Ltd. All rights reserved.
引用
收藏
页码:175 / 184
页数:10
相关论文
共 50 条
[21]   Ultra-low cycle fatigue fracture behaviour of X80 pipeline steel under high stress triaxiality [J].
Peng, Zengli ;
Chen, Yanfei ;
Jia, Lusheng ;
Liu, Yu ;
Zhong, Rongfeng ;
Zhao, Haisheng ;
Li, Xin .
SHIPS AND OFFSHORE STRUCTURES, 2025,
[22]   A new ultra-low cycle fatigue model applied to the X60 piping steel [J].
Pereira, J. C. R. ;
de Jesus, A. M. P. ;
Fernandes, A. A. .
INTERNATIONAL JOURNAL OF FATIGUE, 2016, 93 :201-213
[23]   Comparative study on ultra-low-cycle-fatigue behaviour of three Indian structural steel grades [J].
Nambirajan, Tamilselvan ;
Kumar, P. C. Ashwin .
JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH, 2025, 226
[24]   A micromechanical cyclic void growth model for ultra-low cycle fatigue [J].
Kiran, Ravi ;
Khandelwal, Kapil .
INTERNATIONAL JOURNAL OF FATIGUE, 2015, 70 :24-37
[25]   Ultra-low cycle fatigue tests of Class 1 H-shaped steel beams under cyclic pure bending [J].
Zhao, Xianzhong ;
Tian, Yafeng ;
Jia, Liang-Jiu ;
Zhang, Tao .
STEEL AND COMPOSITE STRUCTURES, 2018, 26 (04) :439-452
[26]   Ultra-low cycle fatigue properties and fracture mechanism of corroded structural steel [J].
Song, Fangyuan ;
Zhang, Tingting ;
Xie, Xu .
CORROSION ENGINEERING SCIENCE AND TECHNOLOGY, 2021, 56 (07) :626-638
[27]   The Simulation of Extremely Low Cycle Fatigue Fracture Behavior for Pipeline Steel (X70) Based on Continuum Damage Model [J].
Fang, Bo ;
Lu, Afei ;
Sun, Jiewei ;
Li, Xiaojie ;
Shen, Tao .
METALS, 2023, 13 (07)
[28]   Experiments and modeling of shear ultra-low-cycle fatigue of structural steel considering plastic deformation histories [J].
Xie, Zhiyang ;
Wang, Wei ;
Yao, Zucheng .
CONSTRUCTION AND BUILDING MATERIALS, 2024, 418
[29]   A cyclic GTN model for ultra-low cycle fatigue analysis of structural steels [J].
Yin, Yue ;
Qin, Wenjia ;
Ma, Tao ;
Bai, Jinghan .
INTERNATIONAL JOURNAL OF FATIGUE, 2023, 177
[30]   Cyclic adaptive cohesive zone model to simulate ductile crack propagation in steel structures due to ultra-low cycle fatigue [J].
Ziccarelli, Andy ;
Kanvinde, Amit ;
Deierlein, Gregory .
FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURES, 2023, 46 (05) :1821-1836
12345