In situ (α-Al2O3+ZrB2)/Al composites with network distribution fabricated by reaction hot pressing

In situ (α-Al 2 O 3 +ZrB 2 )/Al composites with network distribution were fabricated using low-energy ball milling and reaction hot pressing. Differential thermal analysis (DTA) was used to study the reaction mechanisms in the Al–ZrO 2 –B system. X-ray diffraction (XRD) and scanning electron microsc...

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Bibliographic Details
Published in:International journal of minerals, metallurgy and materials metallurgy and materials, 2015-10, Vol.22 (10), p.1092-1100
Main Authors: Mokhnache, El Oualid, Wang, Gui-song, Geng, Lin, Balasubramaniam, Kaveendran, Henniche, Abdelkhalek, Ramdani, Noureddine
Format: Article
Language:English
Subjects:
Aluminum oxide
Ball milling
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Composites
Corrosion and Coatings
Differential thermal analysis
Glass
Hot pressing
Materials Science
Mechanical properties
Metallic Materials
Microhardness
Microstructure
Natural Materials
Particulate composites
Reaction mechanisms
Refractory materials
Sintering (powder metallurgy)
Surfaces and Interfaces
Thermal analysis
Thin Films
Tribology
X-ray diffraction
X-ray spectroscopy
Zirconium compounds
Zirconium dioxide
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Summary:In situ (α-Al 2 O 3 +ZrB 2 )/Al composites with network distribution were fabricated using low-energy ball milling and reaction hot pressing. Differential thermal analysis (DTA) was used to study the reaction mechanisms in the Al–ZrO 2 –B system. X-ray diffraction (XRD) and scanning electron microscopy (SEM) in conjunction with energy-dispersive X-ray spectroscopy (EDX) were used to investigate the composite phases, morphology, and microstructure of the composites. The effect of matrix network size on the microstructure and mechanical properties was investigated. The results show that the optimum sintering parameters to complete reactions in the Al–ZrO 2 –B system are 850°C and 60 min. In situ -synthesized α-Al 2 O 3 and ZrB 2 particles are dispersed uniformly around Al particles, forming a network microstructure; the diameters of the α-Al 2 O 3 and ZrB 2 particles are approximately 1–3 μm. When the size of Al powder increases from 60–110 μm to 150–300 μm, the overall surface contact between Al powders and reactants decreases, thereby increasing the local volume fraction of reinforcements from 12% to 21%. This increase of the local volume leads to a significant increase in microhardness of the in situ (α-Al 2 O 3 –ZrB 2 )/Al composites from Hv 163 to Hv 251.
ISSN:1674-4799
1869-103X
DOI:10.1007/s12613-015-1172-1