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Environmental Modification And Atmospheric Corrosion: Clear Water Rinsing, Covering, And Seawater Spray

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Aerospace assets are subjected to routine maintenance cycles to prevent, monitor, and repair corrosion damage. Currently, the maintenance cycles are determined according to its model and following its respective requirements document (eg: NA(1) 01-1A-509¹ or USAF(2) Technical Order 1-1-691).² A new paradigm of condition-based maintenance (CBM) is highly desired, as a given asset will require different prevention, monitoring, and repair maintenance cycles depending on where it is deployed. As corrosion is the degradation of a material in response to its environment, CBM takes into consideration the variability of the environment (the conditions to which an asset is exposed) when determining appropriate maintenance intervals and what should be done at each interval.

Product Number: 51322-17990-SG

Author: Christine Sanders, Raymond Santucci, Jr

Publication Date: 2022

Industries: Maritime , Corrosion Monitoring and Control

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The F-22 program office is seeking to better characterize the impacts of clear water rinsing and handwashing in different operational conditions. The Naval Research Laboratory’s testing facility in Key West, FL was chosen to test multiple, modified conditions against the same ambient environment. The effect of select environmental parameters on the atmospheric corrosion of silver and steel was assessed. The effect of clear water rinsing (consistent with current preventative maintenance strategies) was evaluated by rinsing all samples with fresh water thrice/twice a week, once a week, or naught at all. The effect of covering was tested by sheltering a set of samples underneath a canvas shelter, consistent with aircraft covering currently used. The effect of natural seawater spray was tested on select samples by spraying them either once a day or twice a day. All conditions were compared against the ambient exposure condition of Key West. The steel mass loss was compared across all conditions. The accumulation of silver compounds was assessed with galvanostatic reduction. The role each parameter plays in the corrosion process is discussed. Specifically, findings will be used to quantify the short-term impacts from accelerated outdoor testing.

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Effect Of Varying H2S Content On High Temperature Corrosion Of Austenitic Alloys In A Pyrolysis Process Of Post-Consumer Plastics

Product Number: 51322-17552-SG

Author: Manuela Nimmervoll, Roland Haubner, Gregor Mori, Stefan Hönig

Publication Date: 2022

$20.00

Pyrolysis processes of post-consumer plastics are a promising chemical recycling route and a good alternative to disposal. Nevertheless, these processes are challenging for metallic materials since chlorine containing materials or biological components inside the feedstock can yield HCl and H2S, respectively, during cracking. In combination with high temperatures of the reactor zone metallic construction materials can be attacked by high-temperature corrosion.

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Effect Of Steel Surface Profile Peak Density On Rust Creepage

Product Number: 51322-17584-SG

Author: Russell Draper, Michael Beamish

Publication Date: 2022

$20.00

The spread of disbondment or corrosion from a scribe or holiday in a coating film, for which the terms rust creepage or undercutting are used in this paper is an important mechanism of coating degradation. The mechanism of rust creepage has been well studied by several authors who concur that the mechanism is driven by electrochemical reactions15. The reactions occurring at the discontinuity in the coating (scribe or holiday) involve an anodic reaction in which iron is dissolved. Adjacent to the anodic region, under the coating, a cathodic reaction occurs in which oxygen is reduced to hydroxyl ions.

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Electrochemical Behavior Of Transmission Pipeline Steels In Supercritical Carbon Dioxide

Product Number: 51322-17592-SG

Author: Zineb Belarbi, Lucas Teeter, Richard E. Chinn, Margaret Ziomek- Moroz, Ömer N. Doğan

Publication Date: 2022

$20.00

High-pressure steel pipeline is a common, cost-effective method for transporting CO₂ from its point of capture to storage sites¹. In pipeline transport systems, CO₂ is mostly transported in its liquid or supercritical phase, depending on the operating pressure^2,3, which requires compression of CO₂ gas to a pressure above 80 bar (Figure 1) and avoid a two-phase flow regime in the steel pipelines. In the USA, the longest CO₂ pipelines, which transport more than 40 MtCO₂ per year from production point to sites in Texas, where the CO₂ is used for enhanced oil recovery (EOR), operate in the “dense phase” mode and at ambient temperature and high pressure.

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Environmental Modification And Atmospheric Corrosion: Clear Water Rinsing, Covering, And Seawater Spray

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Environmental Modification And Atmospheric Corrosion: Clear Water Rinsing, Covering, And Seawater Spray

Effect Of Varying H2S Content On High Temperature Corrosion Of Austenitic Alloys In A Pyrolysis Process Of Post-Consumer Plastics

Effect Of Steel Surface Profile Peak Density On Rust Creepage

Electrochemical Behavior Of Transmission Pipeline Steels In Supercritical Carbon Dioxide

Association for Materials Protection and Performance