PT Journal
AU Knaislova, A
   Linhart, J
   Novak, P
   Prusa, F
TI Preparation of the Ti-Al-Si with the Low Content of Silicon by Powder Metallurgy
SO Manufacturing Technology Journal
PY 2020
BP 459
EP 462
VL 20
IS 4
DI 10.21062/mft.2020.084
DE Intermetallics; Mechanical alloying; Spark Plasma Sintering; Microstructure; Mechanical properties
AB Ti-Al-Si alloys are among the most promising intermetallics, which show a combination of low density and good oxidation resistance. These positives predetermine Ti-Al-Si alloys for applications in the au-tomotive and aerospace industries. In the future, they could substitute existing materials for high-temperature applications (stainless steels, and especially nickel alloys), that high density significantly limits their application. The use of intermetallic compounds based on Ti-Al-Si would therefore lead in particular to a reduction of the weight of the structures, which is highly desirable in the aerospace indus-try. Due to the lightweight construction, fuel consumption and transport costs in general would also be reduced. The disadvantage of Ti-Al-Si alloys is their brittleness at room temperature. Decrease of brit-tleness can be achieved by suitable chemical composition and also by choosing the suitable preparation. Therefore, powder metallurgy processes appear to be the right way to prepare these intermetallics. This work deals with the preparation of intermetallic alloys based on Ti-Al-Si system with the low content of silicon by powder metallurgy using mechanical alloying and followed compaction by Spark Plasma Sin-tering.
ER