Evaluation of High-Temperature Corrosion on 16Mo3 Steel Long-Term Operated at an Elevated Temperature

Monika Gwoździk

doi:10.4028/www.scientific.net/SSP.227.397

Paper Titles

Analysis of Crystallite Size Changes in an Oxide Layer Formed on Steel during Long-Term Operation at an Elevated Temperature
p.381

Influence of Surface Condition on Oxides Layer Morphology on NiCrAlY Coating during Oxidation at Temperature 1000°C and 1100°C
p.385

Studies on the Adhesion of Oxide Layer Formed on Steel Long-Term Operated at an Elevated Temperature
p.389

Comparison of High-Temperature Oxidation Onset Behavior of Sanicro 28 Steel with KCl, NaCl and K₂CO₃
p.393

Evaluation of High-Temperature Corrosion on 16Mo3 Steel Long-Term Operated at an Elevated Temperature
p.397

High-Temperature Corrosion Resistance of Welded Joints in Sanicro 25 Steel
p.401

High-Temperature Corrosion Resistance of Welded Joints in HR6W Alloy
p.405

The Morphology of Corrosion Products in FeAl Alloys after Heat-Resistance Tests at Different Temperatures
p.409

Thermal Properties of YSZ Powders for Plasma Spraying
p.413

HomeSolid State PhenomenaSolid State Phenomena Vol. 227Evaluation of High-Temperature Corrosion on 16Mo3...

Evaluation of High-Temperature Corrosion on 16Mo3 Steel Long-Term Operated at an Elevated Temperature

Abstract:

The paper contains results of studies on the formation of oxide layers on steel long-term operated at an elevated temperature. The oxide layer was studied on a surface and a cross-section at the inner surface of the tube wall. Thorough examinations of the oxide layer carried out on the inside surface of tube wall comprised:microscopic examinations of the oxide layer were performed using an Olympus GX41 optical microscope,thickness measurements of formed oxide layers,chemical composition analysis of deposits/oxides using a Joel JSM-6610LV scanning electron microscope (SEM) working with an Oxford EDS electron microprobe X-ray analyser,X-ray (XRD) measurements; the layer was subject to measurements using a Seifert 3003T/T X-ray diffractometer and the radiation originating from a tube with a cobalt anode (λ_Co=0.17902 nm). X-ray studies were performed, comprising measurements in a symmetric Bragg-Brentano geometry (XRD). XRD measurements were performed in the 15÷120° range of angles with an angular step of 0.1° and the exposure time of 4 s. To interpret the results the diffractograms were described by a Pseudo Voight curve using the Analyze software. DHN PDS and PDF4+2009 computer software and crystallographic database were used for the phase identification.

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Periodical:

Solid State Phenomena (Volume 227)

Pages:

397-400

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.227.397

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Online since:

January 2015

Authors:

Monika Gwoździk*

Keywords:

LM, Oxide Layer, SEM, XRD

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References

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