U. Christoph scite author profile

Intermetallic titanium aluminides offer an attractive combination of low density and good oxidation and ignition resistance with unique mechanical properties. These involve high strength and elastic stiffness with excellent high temperature retention. Thus, they are one of the few classes of emerging materials that have the potential to be used in demanding high‐temperature structural applications whenever specific strength and stiffness are of major concern. However, in order to effectively replace the heavier nickel‐base superalloys currently in use, titanium aluminides must combine a wide range of mechanical property capabilities. Advanced alloy designs are tailored for strength, toughness, creep resistance, and environmental stability. These concerns are addressed in the present paper through global commentary on the physical metallurgy and associated processing technologies of γ‐TiAl‐base alloys. Particular emphasis is paid on recent developments of TiAl alloys with enhanced high‐temperature capability.

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Dislocation dynamics in carbon-doped titanium aluminide alloys

Christoph¹,

Appel²,

Wagner³

1997

Materials Science and Engineering: A

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Coherency stresses and interface-related deformation phenomena in two-phase titanium aluminides

Appel

Christoph

1999

Intermetallics

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SANS investigation of precipitation hardening of two-phase ?-TiAl alloys

Staron¹,

Christoph²,

Appel³

et al. 2002

Applied Physics A: Materials Science & Processing

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Creep deformation in two-phase titanium aluminide alloys

Appel¹,

Christoph²,

Oehring³

2002

Materials Science and Engineering: A

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U. Christoph

Recent Progress in the Development of Gamma Titanium Aluminide Alloys

Dislocation dynamics in carbon-doped titanium aluminide alloys

Coherency stresses and interface-related deformation phenomena in two-phase titanium aluminides

SANS investigation of precipitation hardening of two-phase ?-TiAl alloys

Creep deformation in two-phase titanium aluminide alloys

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