Response of Short Cracks in High-Strength Steels to Fatigue Loadings—Part II: Behavior in Seawater Under Cathodic Polarization-Reference-Cited by-同舟云学术

Response of Short Cracks in High-Strength Steels to Fatigue Loadings—Part II: Behavior in Seawater Under Cathodic Polarization

Published:1995-08-01 Issue:3 Volume:117 Page:192-199
ISSN:0892-7219
Container-title:Journal of Offshore Mechanics and Arctic Engineering
language:en
Short-container-title:

Author:

Kim K.¹,Hartt W. H.²

Affiliation:

1. Department of Marine Engineering, Korea Maritime University, Pusan, Korea

2. Center for Marine Materials, Department of Ocean Engineering, Florida Atlantic University, 777 Glades Road, Boca Raton, FL 33431

Abstract

Experiments have been performed to determine the fatigue crack growth rate (FCGR) of short cracks (length from 0.1 to several mm) of five steels with yield stress in the range 370–570 MPa while cathodically polarized in natural seawater. Attention was focused on regions I and II of the classical FCGR-stress intensity range curve with particular consideration being given to the near-threshold behavior of short cracks. Single-edge notched, three-point bend specimens and a direct current potential drop crack monitoring system were employed; and test parameters were selected to simulate conditions experienced by deepwater offshore structures. These included a stress ratio of 0.5, a frequency of 0.3 Hz, and three levels of cathodic polarization (−800,−950, and −1100 mV, SCE). Crack growth rates were evaluated in terms of environment (air versus seawater), potential, material, and crack length. It was determined that cathodic polarization was generally beneficial with regard to FCGR compared to the freely corroding case, even at the most negative potential considered (−1100 mV, SCE), in contrast to what occurs for macro-cracks. The results are discussed within the context of design of offshore structures for resistance to fatigue.

Publisher

ASME International

Subject

Mechanical Engineering,Ocean Engineering

Link

http://asmedigitalcollection.asme.org/offshoremechanics/article-pdf/117/3/192/5745458/192_1.pdf

Reference25 articles.

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2. Bignonnet, A., 1987, “Corrosion Fatigue in Marine Structures: A Decade of Progress,” Steel in Marine Structures, eds., C. Noordhoek and J. deBack, Elsevier Science Pub., Amsterdam, The Netherlands, pp. 119–135.

3. Dickson, J. I., Blanchette, Y., and Baillon, J. P., 1986, “The Effect of Cathodic Protection on the Propagation of Long and Short Fatigue Cracks,” Proceedings, Cathodic Protection: A+ or - in Corrosion Fatigue, eds., O. Vosikovsky, and K. Lewis, Nova Scotia, Canada.

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1. Mechanistic Features of Short Fatigue Crack Growth Kinetics for High Strength Steels in Sea Water;Journal of Offshore Mechanics and Arctic Engineering;2004-04-15