Add to ORKGTitanium aluminides based on the g-phase (TiAl) offer the potential for component weight savings of up to 50 percent over conventional superalloys in 600 to 850 C aerospace applications. Extensive development efforts over the past 10 years have led to the identification of "engineering" gamma-alloys, which offer a balance of room-temperature mechanical properties and high-temperature strength retention. The gamma class of titanium aluminides also offers oxidation and interstitial (oxygen and nitrogen) embrittlement resistance superior to that of the alpha(sub 2) (Ti3Al) and orthorhombic (Ti2AlNb) classes of titanium aluminides. However, environmental durability is still a concern, especially at temperatures above 750 to 800 C. Recent work a...
Titanium alloys are used in the manufacture of gas turbine aircraft engine compressor section compon...
To extend the oxidation resistance of gamma titanium aluminides for applications above 750°C the for...
Providing attractive properties like low density, high specific stiffness, high specific yield stren...
The excellent density-specific properties of the gamma class of titanium aluminides make them attrac...
Titanium aluminides are attractive alternatives to superalloys in moderate temperature applications ...
Metallic material systems play a key role in meeting the stringent weight and durability requirement...
Engine designers show continued interest in titanium aluminides based on the intermetallic gamma-TiA...
Engine designers show continuing interest in titanium aluminides based on intermetallic γ-TiAl phase...
The \u3b3-TiAl alloys are promising high temperature materials for aeroengines due to their low dens...
The current development of new generation gamma titanium aluminides is expected to result in alloy c...
A diffusion barrier to help protect titanium aluminide alloys, including the coated alloys of the Ti...
gamma-TiAl intermetallic alloys are presently considered an efficient structural material for advanc...
Providing attractive properties such as low density, high specific stiffness, high specific yield st...
To extend the oxidation resistance of gamma titanium aluminides for applications above 750°C the for...
Engine designers show continued interest in γ-TiAl based titanium aluminides as light–weight structu...
Titanium alloys are used in the manufacture of gas turbine aircraft engine compressor section compon...
To extend the oxidation resistance of gamma titanium aluminides for applications above 750°C the for...
Providing attractive properties like low density, high specific stiffness, high specific yield stren...
The excellent density-specific properties of the gamma class of titanium aluminides make them attrac...
Titanium aluminides are attractive alternatives to superalloys in moderate temperature applications ...
Metallic material systems play a key role in meeting the stringent weight and durability requirement...
Engine designers show continued interest in titanium aluminides based on the intermetallic gamma-TiA...
Engine designers show continuing interest in titanium aluminides based on intermetallic γ-TiAl phase...
The \u3b3-TiAl alloys are promising high temperature materials for aeroengines due to their low dens...
The current development of new generation gamma titanium aluminides is expected to result in alloy c...
A diffusion barrier to help protect titanium aluminide alloys, including the coated alloys of the Ti...
gamma-TiAl intermetallic alloys are presently considered an efficient structural material for advanc...
Providing attractive properties such as low density, high specific stiffness, high specific yield st...
To extend the oxidation resistance of gamma titanium aluminides for applications above 750°C the for...
Engine designers show continued interest in γ-TiAl based titanium aluminides as light–weight structu...
Titanium alloys are used in the manufacture of gas turbine aircraft engine compressor section compon...
To extend the oxidation resistance of gamma titanium aluminides for applications above 750°C the for...
Providing attractive properties like low density, high specific stiffness, high specific yield stren...