Effect of intermetallic coatings on the tensile properties of a ?-TiAl based TNM alloy

Effect of intermetallic coatings on the tensile properties of a ?-TiAl based TNM alloy

Tension specimens of a γ-TiAl based TNM-B1 alloy (nominal composition in at%: Ti-43.5A1-4Nb-1Mo-0.1B) were coated with oxidation protective intermetallic Ti-Al-Cr layers containing yttrium and zirconium. The coated specimens were tensile tested in air at room temperature (RD and 850 ° Celsius in the...

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Bibliographic Details
Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Vol. 699; p. 118
Main Authors: Braun, Reinhold, Laska, Nadine, Knittel, Stéphane, Schulz, Uwe
Format: Journal Article
Language:English
Published: Lausanne Elsevier BV 24-06-2017
Subjects:
Adhesive bonding
Aluminum
Coating effects
Ductility
Elongation
Environmental protection
Fracture mechanics
High temperature
Impact analysis
Interdiffusion
Intermetallic compounds
Oxidation
Protective coatings
Spallation
Spalling
Studies
Tensile properties
Tensile strength
Tension tests
Titanium aluminides
Titanium base alloys
Titanium compounds
Yttrium
Zirconium
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Summary:Tension specimens of a γ-TiAl based TNM-B1 alloy (nominal composition in at%: Ti-43.5A1-4Nb-1Mo-0.1B) were coated with oxidation protective intermetallic Ti-Al-Cr layers containing yttrium and zirconium. The coated specimens were tensile tested in air at room temperature (RD and 850 ° Celsius in the as-deposited condition and after a pre-oxidation treatment at 850 ° Celsius for 300 h In air. For comparison, uncoated specimens with and without pre-oxidation were also tested. The elongation after fracture of the TNM-B1 alloy was 0.23% at RI'; it increased to 8.3% at 850 ° Celsius. The as-deposited coatings spalled off during tensile testing at RT. No coating spallation was observed at elevated temperature and after pre-oxidation due to improved adhesion by interdiffusion bonding. Pre-oxidation deteriorated the RT tensile properties of the γ-TiAl based alloy. The RT ductility determined for pre-oxidized coated specimens was even more reduced probably caused by the brittleness of the coatings initiating premature cracks. When tensile tested at 850 ° Celsius, the coated specimens exhibited considerably enhanced elongation after fracture in both the as-deposited and pre-oxidized conditions in comparison to the bare substrate alloy. The increase in ductility was attributed to the high environmental protection of the substrate by the coatings.
ISSN:0921-5093
1873-4936
DOI:10.1016/j.msea.2017.05.077