Preparation of Al-Ti-B grain refiner by SHS technology[Self-propagating High-temperature Synthesis]
Since the discovery of the grain refinement effect of aluminum by titanium, especially with the existence of B or C in 1950, grain refiners are widely accepted in industry for microstructure control of aluminum alloys. Research on this topic is to obtain the highest grain refinement efficiency with the lowest possible addition of master alloy. It is widely accepted that the morphology and size of TiAl{sub 3} particles, which are known as heterogeneous nucleation centers, are important factors deterring the grain refinement efficiency. Fine TiAl{sub 3} particles are favorable. The grain refinement process shows a heredity phenomenon, which means that structural information from initial materials transfers through a melt to the final product. It is important to find the connection between microstructural parameters of the master alloy and the final product. To improve the quality of Al-Ti-B master alloys for the use as a grain refiner, a new method based on SHS (self-propagating high-temperature synthesis) technology has been developed in Samara State Technical University to produce the master alloys. SHS, as a new method for preparation of materials, was first utilized by Merzhanov in 1967. This method uses the energy from highly exothermic reactions to sustain the chemical reaction in a combustion wave. The advantages of SHS include simplicity, low energy requirement, and higher product purity. Because SHS reactions can take place between elemental reactants, it is easy to control product composition. The purposes of this investigation were to fabricate an SHS Al-5%Ti-1%B master alloy, to analyze its structure and to test its grain refining performance.
- Research Organization:
- Samara State Technical Univ. (RU)
- OSTI ID:
- 20023181
- Journal Information:
- Scripta Materialia, Vol. 42, Issue 6; Other Information: PBD: Feb 2000; ISSN 1359-6462
- Country of Publication:
- United States
- Language:
- English
Similar Records
Thermal analysis of aluminum alloys as a tool to evaluate the grain refiners efficiency
Grain Refinement of a gamma-TiAl Alloy Through Isothermal Forging and Heat Treatment