The Interface of TiB^sub 2^ and Al^sub 3^Ti in Molten Aluminum

• Published in: Metallurgical and materials transactions. B, Process metallurgy and materials processing science Vol. 47; no. 6; p. 3285
• Main Authors: Wang, Xiaoming, Song, Jie, Vian, Wei, Ma, Haibin, Han, Qingyou
• Format: Journal Article
• Language: English
• Published: New York Springer Nature B.V 01.12.2016
• Subjects: Aluminum; Interfacial bonding; Metallurgy
• ISSN: 1073-5615; 1543-1916
• DOI: 10.1007/s11663-015-0570-0

In the grain refinement of aluminum, Al3Ti and TiB2 particles are introduced to reduce the casting grain size down to 200 micrometer level, which makes cold working possible. The particles are brought in by the addition of Al-Ti-B-type master alloys. It is generally believed that TiB2 particles are stable and nucleate [alpha]-Al grains in solidification in the presence of titanium in solution from the dissolution of Al3Ti particles in the master alloys. The titanium in solution either forms Al3Ti layers on the surface of TiB2 particles to promote the nucleation of [alpha]-Al grains or remains as solute to restrict the growth of [alpha]-Al grains in solidification. However, a consensus on a grain refinement mechanism is still to be reached due to the lack of direct observation of the three phases in castings. This paper presents finding of the TiB2/Al3Ti interfaces in an Al-Ti-B master alloy. It demonstrates a strong epitaxial growth of Al3Ti on the surface of TiB2 particles, a sign of the formation of an Al3Ti layer on the surface of TiB2 particles in grain refinement practice. The Al3Ti layer has a crystal coherency with [alpha]-Al and hence offers a substrate for heterogeneous nucleation of [alpha]-Al grains. However, the layer must be dynamic to avoid the formation of compounded Al3Ti and TiB2 particles leading to the loss of efficiency in grain refinement.