3D analysis for pit evolution and pit-to-crack transition during corrosion fatigue

AbstractThe United States Department of Defense (DoD) estimated that the annual cost of corrosion to weapon systems and infrastructure in 2014 exceeded $18 billion and that the number was likely to continue to rise. Corrosion affects military readiness by taking critical weapon systems out of action, due to the degradation of equipment. Unfortunately, as the warfighters demand more from their systems, corrosion prevention and control is frequently traded during the acquisition cycle for weapon system performance. As a result, the DoD remains entrenched in a find-and-fix corrosion management philosophy which is expensive and unsustainable. Better standardized laboratory procedures are needed to help the DoD develop (1) a fundamental understanding of corrosion damage, (2) material performance data relevant to corrosion damage, (3) prediction methodologies to help mitigate the effects of corrosion nucleated damage and (4) to develop an understanding of how corrosion preventative coatings can slow mechanical damage. This paper addresses the effect of the corrosion inhibitors strontium chromate and calcium molybdate in concentrations relevant to service on corrosion fatigue damage as well as presents development of a test methodology for the examination of the corrosion pit-to-fatigue crack transition to help the DoD improve corrosion protection system selection.

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Influence of Pitting Corrosion on Fatigue and Corrosion Fatigue of Ship and Offshore Structures, Part II: Load - Pit - Crack Interaction

Polish Maritime Research ◽

10.1515/pomr-2015-0057 ◽

2015 ◽

Vol 22 (3) ◽

pp. 57-66 ◽

Cited By ~ 8

Author(s):

Marek Jakubowski

Keyword(s):

Fatigue Crack ◽

Corrosion Fatigue ◽

Stress Concentrator ◽

Offshore Structures ◽

General Corrosion ◽

Crack Interaction ◽

Anticorrosion Protection ◽

Pit Nucleation ◽

Corrosion Pits ◽

Crack Transition

Abstract In the paper has been discussed influence of stresses on general corrosion rate and corrosion pit nucleation rate and growth , whose presence has been questioned by some authors but accepted by most of them. Influence of roughness of pit walls on fatigue life of a plate suffering pit corrosion and presence of the so called „ non-damaging” pits which never lead to initiation of fatigue crack, has been presented. Possibility of prediction of pit-to-crack transition moment by two different ways, i.e. considering a pit a stress concentrator or an equivalent crack, has been analyzed. Also, influence of statistical distribution of depth of corrosion pits as well as anticorrosion protection on fatigue and corrosion fatigue has been described.

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Analysis of pit to crack transition under corrosion fatigue & the safe-life approach using the modified Kitagawa-Takahashi diagram

International Journal of Fatigue ◽

10.1016/j.ijfatigue.2020.105471 ◽

2020 ◽

Vol 134 ◽

pp. 105471 ◽

Cited By ~ 1

Author(s):

K. Sadananda ◽

A.K. Vasudevan

Keyword(s):

Corrosion Fatigue ◽

Safe Life ◽

Crack Transition

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Pit to crack transition and corrosion fatigue lifetime reduction estimations by means of a short crack microstructural model

Corrosion Science ◽

10.1016/j.corsci.2020.109171 ◽

2021 ◽

Vol 180 ◽

pp. 109171

Author(s):

J.A. Balbín ◽

V. Chaves ◽

N.O. Larrosa

Keyword(s):

Corrosion Fatigue ◽

Short Crack ◽

Fatigue Lifetime ◽

Microstructural Model ◽

Crack Transition

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Direct phase determination in electron crystallography: small organic molecules

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100130468 ◽

1992 ◽

Vol 50 (2) ◽

pp. 1166-1167

Author(s):

Douglas L. Dorset

Keyword(s):

Organic Molecules ◽

Data Sets ◽

Temperature Structure ◽

3D Analysis ◽

Intensity Data ◽

Electron Crystallography ◽

Phase Determination ◽

Measured Intensity ◽

3D Data

The quantitative use of electron diffraction intensity data for the determination of crystal structures represents the pioneering achievement in the electron crystallography of organic molecules, an effort largely begun by B. K. Vainshtein and his co-workers. However, despite numerous representative structure analyses yielding results consistent with X-ray determination, this entire effort was viewed with considerable mistrust by many crystallographers. This was no doubt due to the rather high crystallographic R-factors reported for some structures and, more importantly, the failure to convince many skeptics that the measured intensity data were adequate for ab initio structure determinations.We have recently demonstrated the utility of these data sets for structure analyses by direct phase determination based on the probabilistic estimate of three- and four-phase structure invariant sums. Examples include the structure of diketopiperazine using Vainshtein's 3D data, a similar 3D analysis of the room temperature structure of thiourea, and a zonal determination of the urea structure, the latter also based on data collected by the Moscow group.

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