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Volume 23 Issue 8
Aug.  2016
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Mohammad Raei, Masoud Panjepour,  and Mahmood Meratian, Pseudo-in-situ stir casting: a new method for production of aluminum matrix composites with bimodal-sized B4C reinforcement, Int. J. Miner. Metall. Mater., 23(2016), No. 8, pp. 981-990. https://doi.org/10.1007/s12613-016-1315-z
Cite this article as:
Mohammad Raei, Masoud Panjepour,  and Mahmood Meratian, Pseudo-in-situ stir casting: a new method for production of aluminum matrix composites with bimodal-sized B4C reinforcement, Int. J. Miner. Metall. Mater., 23(2016), No. 8, pp. 981-990. https://doi.org/10.1007/s12613-016-1315-z
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Pseudo-in-situ stir casting: a new method for production of aluminum matrix composites with bimodal-sized B4C reinforcement

  • 通讯作者:

    Mohammad Raei    E-mail: m.raei@ma.iut.ac.ir

  • A new method was applied to produce an Al-0.5wt%Ti-0.3wt%Zr/5vol%B4C composite via stir casting with the aim of characterizing the microstructure of the resulting composite. For the production of the composite, large B4C particles (larger than 75 μm) with no pre-heating were added to the stirred melt. Reflected-light microscopy, X-ray diffraction, scanning electron microscopy, field-emission scanning electron microscopy, laser particle size analysis, and image analysis using the Clemex software were performed on the cast samples for microstructural analysis and phase detection. The results revealed that as a consequence of thermal shock, B4C particle breakage occurred in the melt. The mechanism proposed for this phenomenon is that the exerted thermal shock in combination with the low thermal shock resistance of B4C and large size of the added B4C particles were the three key parameters responsible for B4C particle breakage. This breakage introduced small particles with sizes less than 10 μm and with no contamination on their surfaces into the melt. The mean particle distance measured via image analysis was approximately 60 μm. The coefficient of variation index, which was used as a measure of particle distribution homogeneity, showed some variations, indicating a relatively homogeneous distribution.
  • Pseudo-in-situ stir casting: a new method for production of aluminum matrix composites with bimodal-sized B4C reinforcement

    + Author Affiliations
    • A new method was applied to produce an Al-0.5wt%Ti-0.3wt%Zr/5vol%B4C composite via stir casting with the aim of characterizing the microstructure of the resulting composite. For the production of the composite, large B4C particles (larger than 75 μm) with no pre-heating were added to the stirred melt. Reflected-light microscopy, X-ray diffraction, scanning electron microscopy, field-emission scanning electron microscopy, laser particle size analysis, and image analysis using the Clemex software were performed on the cast samples for microstructural analysis and phase detection. The results revealed that as a consequence of thermal shock, B4C particle breakage occurred in the melt. The mechanism proposed for this phenomenon is that the exerted thermal shock in combination with the low thermal shock resistance of B4C and large size of the added B4C particles were the three key parameters responsible for B4C particle breakage. This breakage introduced small particles with sizes less than 10 μm and with no contamination on their surfaces into the melt. The mean particle distance measured via image analysis was approximately 60 μm. The coefficient of variation index, which was used as a measure of particle distribution homogeneity, showed some variations, indicating a relatively homogeneous distribution.
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