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- Title
Determination of mechanical adhesion energy of thermal oxide scales on AISI 430Ti alloy using tensile test.
- Authors
Chandra-Ambhorn, S.; Roussel-Dherbey, F.; Toscan, F.; Wouters, Y.; Galerie, A.; Dupeux, M.
- Abstract
The present paper deals with mechanical adhesion energy determination of thermal oxide scales on metallic alloys. AISI 430Ti alloy (Fe–18Cr–0·4Ti–0·5Si, wt-%) was isothermally oxidised at 900°C in Ar–20%O2 atmosphere to grow thermal oxide scales of various thickness. These oxide/metal systems were subjected to room temperature in situ tensile test in the SEM chamber allowing continuous observation of surface failure during the test. Characteristic observations were oxide transverse cracking and scale spallation. A theoretical model was developed to quantify stress and strain evolution in oxide during the test, allowing to derive adhesion energy from strain and stress values at spallation onset. It was found that oxide scales on AISI 430Ti exhibited high mechanical adhesion energy, decreasing from 163 to 38 J m-2 with increasing oxide thickness in the range from 0·3 to 2·2 μm. Excellent agreement was observed with adhesion energy values obtained using the inverted blister test on the same alloy.
- Subjects
ADHESION; OXIDATION; THERMAL properties of oxides; ALLOYS; METALLIC composites; STRAINS &; stresses (Mechanics); METALS testing; METALLIC surfaces
- Publication
Materials Science & Technology, 2007, Vol 23, Issue 4, p497
- ISSN
0267-0836
- Publication type
Article
- DOI
10.1179/174328407X168964