Improvement of the mechanical properties of Al-Si alloys by TiC nanoparticles

Konstantin Borodianskiy, Alexey Kossenko, Michael Zinigrad

Research output: Contribution to journalArticlepeer-review

34 Scopus citations

Abstract

Al-Si alloy A356 was modified by TiC nanoparticles. First, the nanoparticles were mechanochemically activated together with aluminum powder. Next, the activated particles were hot extruded in a home-made extruder. Finally, nanoparticles thus prepared in the aluminum matrix were added to the liquid Al-Si alloy, which was then cast into sand molds. A comparison of the microstructure and mechanical properties of the modified alloy thus produced with those of the alloy without the nanoparticles demonstrated that the grain size of the modified alloy decreased. The mechanical properties determined after T6 heat treatment indicated unusual behavior, where the elongation of the modified alloys increased by 20 to 50 pct in different regions of the cast, while the tensile strength remained unchanged and the hardness increased by 18 pct. An electron microscopy study revealed concentration of dislocations near grain boundaries in the modified alloy samples. These grain boundaries serve as obstacles to dislocation motion. It was therefore concluded that the improvement in the mechanical properties of the aluminum alloy modified by TiC nanoparticles was caused by the grain-size-strengthening mechanism.

Original languageEnglish
Pages (from-to)4948-4953
Number of pages6
JournalMetallurgical and Materials Transactions A: Physical Metallurgy and Materials Science
Volume44
Issue number11
DOIs
StatePublished - Nov 2013

Bibliographical note

Funding Information:
The current study was supported by the Chief Scientist of the Israel Ministry of Industry, Trade, and Labor (The MAGNET Program Grant No. 41889). The authors would like to thank Ms. Natalia Litvak for her help in the SEM studies.

Funding

The current study was supported by the Chief Scientist of the Israel Ministry of Industry, Trade, and Labor (The MAGNET Program Grant No. 41889). The authors would like to thank Ms. Natalia Litvak for her help in the SEM studies.

FundersFunder number
Chief Scientist of the Israel Ministry of Industry, Trade, and Labor41889

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