Open AccessFatigue Life of Welded Structures under Random Load Study on Frequency Domain Method
Author(s) -
Songbing He,
De Qing Guan,
Chao Luo,
Fan Gao
Publication year - 2021
Publication title -
iop conference series. earth and environmental science
Language(s) - English
Resource type - Journals
eISSN - 1755-1307
pISSN - 1755-1315
DOI - 10.1088/1755-1315/719/2/022046
Subject(s) - spectral density , vibration fatigue , structural engineering , stress (linguistics) , residual stress , finite element method , welding , frequency domain , random vibration , acceleration , power (physics) , mathematics , materials science , mechanics , mathematical analysis , vibration , engineering , physics , acoustics , statistics , composite material , classical mechanics , linguistics , philosophy , quantum mechanics
In this paper, based on the finite element software, the residual stress of the structure weld is obtained through simulation analysis. The influence of stress concentration is considered by using the mean square stress concentration factor; and the S-N curve equation of the structure is derived. then, the stress power spectrum density of dangerous parts is obtained by random response analysis; Then, the vibration mode of the welded structure is obtained by random response analysis, and the acceleration power spectral density of the structure is input, and then the stress power spectrum density of the dangerous part is obtained Finally, the appropriate stress probability density distribution model is selected to predict the fatigue life with S-N curve equation and Miner damage accumulation theory. The results show that the fatigue life predicted by this method is very close to that of rain flow counting method.