The Effect of Zirconium on Titanium Aluminides
Research output: Thesis › Master's Thesis
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2019.
Research output: Thesis › Master's Thesis
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TY - THES
T1 - The Effect of Zirconium on Titanium Aluminides
AU - Schulz, Bernd
N1 - embargoed until 01-06-2020
PY - 2019
Y1 - 2019
N2 - As the efficiency and, therefore, the environmental sustainability of processes increases with increasing temperatures, the development of light-weight, high-strength materials which can withstand those demanding conditions is necessary. The high melting point, low density, high specific stiffness and yield strength as well as the good creep and oxidation properties of intermetallic titanium aluminide (TiAl) alloys, make them attractive candidates for high-temperature applications in aerospace, automotive and power industries. Crucial for further alloy and processing development is controlling the deformation mechanisms, which are predominantly concentrated in the occurring γ(TiAl)-phase. Hence, it is necessary to find ways to increase the strength of this phase with methods such as solid solution strengthening. Zr is an interesting candidate to act as solid solution strengthening element. In this master thesis differential scanning calorimetry has been combined with thermodynamic calculations and heat treatment studies to establish the effect of Zr on the binary Ti-Al phase diagram. The strong γ stabilising effect has been confirmed as well as the reduction of solidus and liquidus temperature. Nanoindentation experiments were also conducted and have found a solid solution strengthening effect of Zr. All results were compared and discussed with regard to an alloy containing the already well research element Nb.
AB - As the efficiency and, therefore, the environmental sustainability of processes increases with increasing temperatures, the development of light-weight, high-strength materials which can withstand those demanding conditions is necessary. The high melting point, low density, high specific stiffness and yield strength as well as the good creep and oxidation properties of intermetallic titanium aluminide (TiAl) alloys, make them attractive candidates for high-temperature applications in aerospace, automotive and power industries. Crucial for further alloy and processing development is controlling the deformation mechanisms, which are predominantly concentrated in the occurring γ(TiAl)-phase. Hence, it is necessary to find ways to increase the strength of this phase with methods such as solid solution strengthening. Zr is an interesting candidate to act as solid solution strengthening element. In this master thesis differential scanning calorimetry has been combined with thermodynamic calculations and heat treatment studies to establish the effect of Zr on the binary Ti-Al phase diagram. The strong γ stabilising effect has been confirmed as well as the reduction of solidus and liquidus temperature. Nanoindentation experiments were also conducted and have found a solid solution strengthening effect of Zr. All results were compared and discussed with regard to an alloy containing the already well research element Nb.
KW - titanium aluminides
KW - TiAl
KW - zirconium
KW - Zr
KW - phase diagram
KW - solid solution strengthening
KW - Titanaluminide
KW - TiAl
KW - Zirkonium
KW - Zr
KW - Phasendiagramm
KW - Mischkristallverfestigung
M3 - Master's Thesis
ER -