Structural characterization of aluminized steel heat treated in different environments

Thermal and plasma based heat treatments of Aluminized P91 steel under different environments such as 100%O2, 100%Ar and 50%O2+50% Ar are attempted to investigate microstructural defects. Heat treatment of Al coated P91 steel involving normalizing treatment at 980°C and tempering at 750°C for 0.5h a...

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Bibliographic Details
Published in:Surface & coatings technology 2018-02, Vol.335, p.88-94
Main Authors: Bhavsar, Vaibhav, Dang, Tarandip Singh, Patel, Hiren, Rehani, Bharati, Jamnapara, N.I.
Format: Article
Language:English
Subjects:
Aluminizing
Aluminum
Aluminum oxide
Coating effects
Crystal defects
Diffusion coating
Ferrous alloys
Heat treating
Heat treatment
Intermetallic compounds
Iron aluminides
Lattice vacancies
Normalizing (heat treatment)
Plasma physics
Plasma processing
Porosity
Steel
Structural analysis
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Summary:Thermal and plasma based heat treatments of Aluminized P91 steel under different environments such as 100%O2, 100%Ar and 50%O2+50% Ar are attempted to investigate microstructural defects. Heat treatment of Al coated P91 steel involving normalizing treatment at 980°C and tempering at 750°C for 0.5h and 1.5h respectively in above mentioned environments under thermal and plasma processing conditions at 5mbar pressure was conducted. Detailed study of microstructural evaluation of the resultant diffusion coating under different environment is reported with SEM-EDS and EBSD characterization in current study. Further the vacancy concentration, CV was evaluated based on the precise combination of the changes in the bulk length and the X-ray lattice parameter from XRD data. The effect of vacancy concentration, grain size and strain on resultant coating has been presented. Presence of stable α-Al2O3 and metastable θ-Al2O3 along with FeAl was confirmed by XRD analysis in both thermal and plasma processed samples under 100%O2 and 50%O2+50%Ar environment while in Ar environment minor presence of θ-Al2O3 was observed during plasma treatment. Plasma heat treatment under 50%O2+50%Ar environment results in coating with stable α-Al2O3 followed by diffusion zone of FeAl with lowest vacancies, residual strain and area fraction of kirkendall porosity with maximum length of diffusion zone of FeAl phase for aluminized P91 steels than plasma treatment under 100% Ar environment and 100% O2. •Plasma compared to thermal treatment of aluminized P91 steels revealed increase in calculated vacancy concentration.•Plasma treatment under 50%O2+50%Ar environment revealed minimum amount of kirkendall porosities and vacancy concentration.•Increase in vacancy concentration indicates need for mechanical property accessment of plasma treated aluminide P91 steels.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2017.12.032