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Fatigue behavior of the transverse stiffener subjected to constant amplitude loading

Woo, Sang-Ik

Objectives of this study are to examine the fatigue behavior of the transverse stiffener in comparison with other previous studies. The shape of fatigue cracks depended upon the number of crack initiation sites along the weld toe. Fatigue cracks initiated at a corner had quarter-elliptical fronts. And, the crack propagated through the thickness of the main plate until the remaining ligament eventually fractured at an average net section stress nearly equal to the tensile strength. The constant amplitude fatigue limits for the specimens tested atf_min=14 N/mm² andf_max=290 N/mm², were respectively predicted with the mean regression line,s=0.084,m=4.097, using by the number of run outs in percent. By changing fromf_min=14 N/mm² tof_max=290 N/mm², the fatigue strength decreased clearly in the finite life region and so did the lower bound fatigue limit fromF_rl=110 to 83 N/mm². For the effect of the weld type, it was also found that the excellent quality of automatic welding resulted in a large root radius at the weld toe and thus significantly increased the fatigue strength of both stiffeners from category C to B'

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Fatigue behavior of the transverse stiffener subjected to constant amplitude loading

Woo, Sang-Ik

Objectives of this study are to examine the fatigue behavior of the transverse stiffener in comparison with other previous studies. The shape of fatigue cracks depended upon the number of crack initiation sites along the weld toe. Fatigue cracks initiated at a corner had quarter-elliptical fronts. And, the crack propagated through the thickness of the main plate until the remaining ligament eventually fractured at an average net section stress nearly equal to the tensile strength. The constant amplitude fatigue limits for the specimens tested atf_min=14 N/mm² andf_max=290 N/mm², were respectively predicted with the mean regression line,s=0.084,m=4.097, using by the number of run outs in percent. By changing fromf_min=14 N/mm² tof_max=290 N/mm², the fatigue strength decreased clearly in the finite life region and so did the lower bound fatigue limit fromF_rl=110 to 83 N/mm². For the effect of the weld type, it was also found that the excellent quality of automatic welding resulted in a large root radius at the weld toe and thus significantly increased the fatigue strength of both stiffeners from category C to B'

Fatigue behavior of the transverse stiffener subjected to constant amplitude loading

Woo, Sang-Ik

Objectives of this study are to examine the fatigue behavior of the transverse stiffener in comparison with other previous studies. The shape of fatigue cracks depended upon the number of crack initiation sites along the weld toe. Fatigue cracks initiated at a corner had quarter-elliptical fronts. And, the crack propagated through the thickness of the main plate until the remaining ligament eventually fractured at an average net section stress nearly equal to the tensile strength. The constant amplitude fatigue limits for the specimens tested atf_min=14 N/mm² andf_max=290 N/mm², were respectively predicted with the mean regression line,s=0.084,m=4.097, using by the number of run outs in percent. By changing fromf_min=14 N/mm² tof_max=290 N/mm², the fatigue strength decreased clearly in the finite life region and so did the lower bound fatigue limit fromF_rl=110 to 83 N/mm². For the effect of the weld type, it was also found that the excellent quality of automatic welding resulted in a large root radius at the weld toe and thus significantly increased the fatigue strength of both stiffeners from category C to B'

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Title:

Fatigue behavior of the transverse stiffener subjected to constant amplitude loading

Additional title:

KSCE J Civ Eng

Contributors:

Woo, Sang-Ik (author)

Published in:

KSCE Journal of Civil Engineering ; 6 ; 143-150

Publication date:

2002-06-01

Size:

8 pages

ISSN:

1976-3808 , 1226-7988

DOI:

https://doi.org/10.1007/BF02829131

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

constant amplitude loading , crack initiation , crack propagation , fatigue life , fatigue limit , fatigue crack , stress range , transverse stiffener , weld toe Engineering , Civil Engineering , Industrial Pollution Prevention , Geotechnical Engineering & Applied Earth Sciences

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