Yttrium Implantation and Manganese Addition Element Effects on the High Temperature Oxidation Resistance of a Model Steel

Eric Caudron; Régis Cueff; Christophe Issartel; N. Karimi; Frédéric Riffard; Sébastien Perrier; Henri Buscail

doi:10.4028/www.scientific.net/MSF.595-598.897

Paper Titles

Influence of Tantalum on the Rates of High Temperature Oxidation and Chromia Volatilization for Cast (Fe and/or Ni)-30Cr-0.4C Alloys
p.861

Study of the Behavior in Oxidation at High Temperature of Ni, Co and Fe-Base Alloys Containing Very High Fractions of Carbides
p.871

Microstructure Influence on Residual Stresses in Growing Chromia Oxide Films as Determined by In Situ High Temperature Raman Spectroscopy
p.881

High Resolution MicroRaman Study of Blisters in Cr₂O₃ Thermal Oxide Films
p.889

Yttrium Implantation and Manganese Addition Element Effects on the High Temperature Oxidation Resistance of a Model Steel
p.897

Comments on the Quantification of Mechanical Adhesion Energy of Thermal Oxide Scale on Metallic Substrate Using Tensile Test
p.907

Thermal Alumina Scales on FeCrAl: Characterization and Growth Mechanism
p.915

Relation between Synthesis Process, Microstructure and Corrosion Resistance of Two Yttrium Silicates
p.923

The Effects of Reactive Element Oxide Coatings on the High Temperature Oxidation of FeCrAl Alloy
p.933

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Yttrium Implantation and Manganese Addition Element Effects on the High Temperature Oxidation Resistance of a Model Steel

Abstract:

Manganese addition and subsequent yttrium implantation effects on extra low carbon steel were studied by Rutherford Backscattering Spectrometry (RBS), Reflection High Energy Electron Diffraction (RHEED), X-ray Diffraction (XRD) and Glancing Angle X-ray Diffraction (GAXRD). Thermogravimetry and in situ X-Ray Diffraction at 700°C and PO2=0.04 Pa for 24h were used to determine the manganese alloying addition and subsequent yttrium implantation effects on reference steel oxidation resistance at high temperatures. This study clearly shows the combined effect of manganese alloying addition and subsequent yttrium implantation which promotes the formation of several yttrium mixed oxides seem to be responsible for the improved reference steel oxidation resistance at high temperatures.