Add to ORKGThe advantages of gamma TiAl-based alloys including their specific modulus, specific high-temperature strength and oxidation resistance make them attractive candidates as high-temperature structural materials in the automotive, aerospace and power industries. Currently most attention is paid to the alloys of the third and fourth generations. However, this type of alloys contains relatively high amounts of refractory metals such as Nb and Ta. The high melting points of these metals (2477 and 3017) °C are problematic for the preparation of these products with the conventional casting, because it is necessary to use higher temperatures and thus, generally, longer total melting times. This may result in increased oxygen amounts in the products ...
After almost three decades of intensive fundamental research and development activities intermetalli...
This paper concerns the preparation and the transformation of Nb-rich alloys made by melting high pu...
The number of available materials for Laser Powder Bed Fusion is still limited due to the poor proce...
The advantages of gamma TiAl-based alloys including their specific modulus, specific high-temperatur...
Intermetallic TiAl based alloys are used in extreme conditions, e.g. high temperature, aggressive at...
High Nb containing TiAl based alloys exhibit excellent corrosion resistance to molten zinc. They are...
Engineering titanium aluminide (TiAl) alloys are a family of intermetallic materials that, thanks to...
The possibilities of metallurgical preparation of 40Nb-60Al and 15W-85Al intermetallic compounds (in...
We recently reported that the combined employment of niobium and boron (i.e. Nb-based intermetallics...
Engineering titanium aluminide (TiAl) alloys are a family of intermetallic materials that, thanks to...
This research is focused on intermetallic TiAl and their oxidation behavior for structural materials...
Al-Nb-B master alloys were synthesized using commercial pure aluminum, niobium, and KBF4 salts. Two ...
Nb3Al base alloys were produced in ingot or ribbon form using cold hearth non-consumable tungsten ar...
The titanium aluminide family was selected as a promising material for the next generation of aircra...
Titanium aluminide alloys based on Ti$_{3}$Al and TiAl are of particular interest for the developmen...
After almost three decades of intensive fundamental research and development activities intermetalli...
This paper concerns the preparation and the transformation of Nb-rich alloys made by melting high pu...
The number of available materials for Laser Powder Bed Fusion is still limited due to the poor proce...
The advantages of gamma TiAl-based alloys including their specific modulus, specific high-temperatur...
Intermetallic TiAl based alloys are used in extreme conditions, e.g. high temperature, aggressive at...
High Nb containing TiAl based alloys exhibit excellent corrosion resistance to molten zinc. They are...
Engineering titanium aluminide (TiAl) alloys are a family of intermetallic materials that, thanks to...
The possibilities of metallurgical preparation of 40Nb-60Al and 15W-85Al intermetallic compounds (in...
We recently reported that the combined employment of niobium and boron (i.e. Nb-based intermetallics...
Engineering titanium aluminide (TiAl) alloys are a family of intermetallic materials that, thanks to...
This research is focused on intermetallic TiAl and their oxidation behavior for structural materials...
Al-Nb-B master alloys were synthesized using commercial pure aluminum, niobium, and KBF4 salts. Two ...
Nb3Al base alloys were produced in ingot or ribbon form using cold hearth non-consumable tungsten ar...
The titanium aluminide family was selected as a promising material for the next generation of aircra...
Titanium aluminide alloys based on Ti$_{3}$Al and TiAl are of particular interest for the developmen...
After almost three decades of intensive fundamental research and development activities intermetalli...
This paper concerns the preparation and the transformation of Nb-rich alloys made by melting high pu...
The number of available materials for Laser Powder Bed Fusion is still limited due to the poor proce...