Microstructure characteristics of FeMo–Sialon ceramic composite

A new metal–Sialon based ceramic composite of FeMo–Sialon has been processed using Si 3N 4, α-Al 2O 3 and FeMo70 alloy powders as the main raw materials. To explain why this composite has excellent mechanical properties, microstructure characterizations are carried out using the transmission electro...

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Published in	Materials science & engineering. A, Structural materials : properties, microstructure and processing Vol. 528; no. 4; pp. 2196 - 2199
Main Authors	Yang, Jing-Zhou, Huang, Zhao-Hui, Hu, Xiao-Zhi, Fang, Ming-Hao, Liu, Yan-Gai, Huang, Jun-Tong
Format	Journal Article
Language	English
Published	Kidlington Elsevier B.V 25.02.2011 Elsevier
Subjects	Ceramics Composites Cross-disciplinary physics: materials science; rheology Crystals Disilicides Electron microscopy Exact sciences and technology FeMo–Sialon Ferrous alloy Intermetallic compounds Intermetallics Iron compounds Materials science Microstructure Physics Semiconductors Silicides Specific materials Composites FeMo–Sialon Ceramics Electron microscopy Ferrous alloy Grain boundaries Ceramic matrix composite Inorganic compounds FeMo-Sialon Mechanical properties Iron alloys Dispersion reinforced material SAED Amorphous phase Composite materials Transmission electron microscopy Sialon Microstructure Molybdenum alloys
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Abstract	A new metal–Sialon based ceramic composite of FeMo–Sialon has been processed using Si 3N 4, α-Al 2O 3 and FeMo70 alloy powders as the main raw materials. To explain why this composite has excellent mechanical properties, microstructure characterizations are carried out using the transmission electron microscopy (TEM) and selected area electron diffraction (SAED). The results show that FeMo, FeSi 2 and Mo have formed an alloy mixture of Mo–Fe–Si in the FeMo–Sialon ceramic composite. Elongated β-Sialon crystals, interlacing with each other, vary in size. The Y-SiAlON glass, as an inter-granular phase, surrounds the grain boundaries of β-Sialon crystals. Some of β-Sialon crystals are semi-surrounded by dumbbell-like Mo–Fe–Si particles. The good mechanical properties of FeMo–Sialon composite are greatly dependent on the elongated Sialon grains and Mo–Fe–Si particles with interlocking structures.
AbstractList	A new metal-SiAlON based ceramic composite of FeMo-SiAlON was processed using Si3N4, alpha-Al2O3 and FeMo70 alloy powders as the main raw materials. To explain why this composite has excellent mechanical properties, microstructure characterisations were carried out using TEM and SAED. The results show that FeMo, FeSi2 and Mo formed an alloy mixture of Mo-Fe-Si in the FeMo-SiAlON ceramic composite. Elongated beta-SiAlON crystals interlaced together and varied in size. The Y-SiAlON glass, as an intergranular phase, surrounded the grain boundaries of beta-SiAlON crystals. Some beta-SiAlON crystals were semi-surrounded by dumbbell-like Mo-Fe-Si particles. The good mechanical properties of FeMo-SiAlON composite were greatly dependent on the elongated SiAlON grains and Mo-Fe-Si particles with interlocking structures. A new metal–Sialon based ceramic composite of FeMo–Sialon has been processed using Si 3N 4, α-Al 2O 3 and FeMo70 alloy powders as the main raw materials. To explain why this composite has excellent mechanical properties, microstructure characterizations are carried out using the transmission electron microscopy (TEM) and selected area electron diffraction (SAED). The results show that FeMo, FeSi 2 and Mo have formed an alloy mixture of Mo–Fe–Si in the FeMo–Sialon ceramic composite. Elongated β-Sialon crystals, interlacing with each other, vary in size. The Y-SiAlON glass, as an inter-granular phase, surrounds the grain boundaries of β-Sialon crystals. Some of β-Sialon crystals are semi-surrounded by dumbbell-like Mo–Fe–Si particles. The good mechanical properties of FeMo–Sialon composite are greatly dependent on the elongated Sialon grains and Mo–Fe–Si particles with interlocking structures. A new metal-Sialon based ceramic composite of FeMo-Sialon has been processed using Si3N4, alpha -Al2O3 and FeMo70 alloy powders as the main raw materials. To explain why this composite has excellent mechanical properties, microstructure characterizations are carried out using the transmission electron microscopy (TEM) and selected area electron diffraction (SAED). The results show that FeMo, FeSi2 and Mo have formed an alloy mixture of Mo-Fe-Si in the FeMo-Sialon ceramic composite. Elongated beta -Sialon crystals, interlacing with each other, vary in size. The Y-SiAlON glass, as an inter-granular phase, surrounds the grain boundaries of beta -Sialon crystals. Some of beta -Sialon crystals are semi-surrounded by dumbbell-like Mo-Fe-Si particles. The good mechanical properties of FeMo-Sialon composite are greatly dependent on the elongated Sialon grains and Mo-Fe-Si particles with interlocking structures.
Author	Yang, Jing-Zhou Hu, Xiao-Zhi Fang, Ming-Hao Huang, Jun-Tong Huang, Zhao-Hui Liu, Yan-Gai
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Keywords	Composites FeMo–Sialon Ceramics Electron microscopy Ferrous alloy Grain boundaries Ceramic matrix composite Inorganic compounds FeMo-Sialon Mechanical properties Iron alloys Dispersion reinforced material SAED Amorphous phase Composite materials Transmission electron microscopy Sialon Microstructure Molybdenum alloys
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Snippet	A new metal–Sialon based ceramic composite of FeMo–Sialon has been processed using Si 3N 4, α-Al 2O 3 and FeMo70 alloy powders as the main raw materials. To... A new metal-Sialon based ceramic composite of FeMo-Sialon has been processed using Si3N4, alpha -Al2O3 and FeMo70 alloy powders as the main raw materials. To... A new metal-SiAlON based ceramic composite of FeMo-SiAlON was processed using Si3N4, alpha-Al2O3 and FeMo70 alloy powders as the main raw materials. To explain...
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SubjectTerms	Ceramics Composites Cross-disciplinary physics: materials science; rheology Crystals Disilicides Electron microscopy Exact sciences and technology FeMo–Sialon Ferrous alloy Intermetallic compounds Intermetallics Iron compounds Materials science Microstructure Physics Semiconductors Silicides Specific materials
Title	Microstructure characteristics of FeMo–Sialon ceramic composite
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