Results 211 to 220 of about 23,226 (266)
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Analysis on liquid metal corrosion–oxidation interactions

Corrosion Science, 2007
Abstract The interaction between growing surface oxides and flowing liquid metals is of importance in many high temperature applications such as coolant systems using liquid lead or lead bismuth eutectic (LBE) in advanced nuclear energy systems. The impact of flow can manifest through particle erosion, mass transfer corrosion, stress scrape, etc.
Jinsuo Zhang
exaly   +2 more sources

Liquid-Metal Corrosion

Fusion Technology, 1985
A review of corrosion and environmental effects on the mechanical properties of candidate structural alloys for use with liquid metals in fusion reactors is presented. The corrosion/mass transfer behavior of austenitic and ferritic steels and vanadium-base alloys is evaluated to determine the preliminary operating temperature limits for circulating and
Omesh K. Chopra   +4 more
openaire   +1 more source

Models of liquid metal corrosion

Journal of Nuclear Materials, 2010
Abstract In the present study, models for liquid metal corrosion are reviewed and their applications in nuclear reactor engineering are discussed. The paper presents mathematical analysis of liquid metal corrosion, including species transport in solid steels, in flowing liquid metals, and mass exchange at liquid/solid interface.
J. Zhang, P. Hosemann, S. Maloy
openaire   +1 more source

Liquid Metal Corrosion

Corrosion, 1953
In many instances, liquid metal corrosion is simply a question of solubility rate and extent of solubility. However, solubility and diffusion barriers may be developed from the components or impurities in the form of intermetallic compounds, metal oxides, nitrides and other surface films.
openaire   +1 more source

Metal-Liquid Reactions: Corrosion

1976
The aqueous corrosion of metals requires that the metal itself be oxidized while some other species in solution is reduced. The simplest case of metal oxidation is $$2M + {O_2} = 2MO$$ (1) This is a gaseous corrosion reaction which has been considered in another chapter in this treatise. For oxidation in solution an analog to Eq.
M. J. Pryor, R. W. Staehle
openaire   +1 more source

Corrosion of Metals by Liquid Fertilizer Solutions

Corrosion, 1956
Laboratory corrosion tests were conducted on aluminum, carbon steel, chromium, and chromium-nickel stainless steels to evaluate their suitability as constructional materials for storage, transport, and applicator tanks for “nitrogen” and “complete-mix” liquid fertilizers.
D. C. Vreeland, S. H. Kalin
openaire   +1 more source

Active Corrosion Triggered Liquid Metal Dewetting

Small
AbstractLiquid metals (LMs), as an emerging group of functional materials, possess the necessary conditions for dewetting. However, LM dewetting garnered grossly inadequate attention. Here, an intriguing phenomenon termed active corrosion‐triggered dewetting (ACT‐Dewetting) of LMs is reported. Distinct from traditional dewetting which mainly depends on
Wangyan Wu, Guangyu Chai, Wei Luo
openaire   +2 more sources

Corrosion of Refractory Metals in Liquid Lithium

1982
Since in fusion reactor concepts liquid lithium is considered as a candidate for both the coolant and the breeder blanket material, its action on refractory metals, as well as ferritic and austenitic steels in chemically well-defined lithium is of major importance.
Norbert Rumbaut   +5 more
openaire   +1 more source

An examination of methods for analysis of liquid metal corrosion

Journal of Materials for Energy Systems, 1986
Methods of analyzing liquid metal penetration data are discussed and compared. Data on the corrosion of 2.25Cr-1Mo steel by liquid lithium at 480 ‡C are reanalyzed as an example, and a previously reported activation energy for a secondary penetration mechanism is corrected.
B. A. Wilkinson   +2 more
openaire   +1 more source

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