A Self-propagating high-temperature synthesis process for the fabrication of Fe(Cr)–Al2O3 nanocomposite
来源期刊:International Journal of Minerals Metallurgy and Materials2019年第6期
论文作者:Seyed Esmaiel Shakib Ramin Raiszadeh Jalil Vahdati-Khaki
文章页码:775 - 786
摘 要:Self-propagating high-temperature synthesis(SHS) was used to fabricate a Fe(Cr)–Al2 O3 nanocomposite. The composite was fabricated by the reactions between the powders of Fe, Fe2 O3, Cr2 O3, and Al. The effect of blending ratio and mechanical activation of the initial powders and the precursor compressing pressure on the microstructure of the final product was studied by optical microscopy, scanning electron microscopy, transmission electron microscopy, and X-ray diffraction. The significance of the effect of each of the aforementioned parameters on the quality of the composite(assessed by measuring the compressive strength and wear resistance) was determined using a full-factorial design of experiments method. The results showed that the best molar powder ratio that produced the most homogeneous product through a sustainable SHS reaction was Fe:Fe2 O3:Cr2 O3:Al = 10:1:1:4. A lower Fe content caused the Fe(Cr) phase to melt and separate from the rest of the materials.
Seyed Esmaiel Shakib1,2,Ramin Raiszadeh1,Jalil Vahdati-Khaki2
1. Department of Metallurgy and Materials Science, School of Engineering, Shahid Bahonar University of Kerman2. Department of Materials Science and Metallurgical Engineering, Engineering Faculty, Ferdowsi University of Mashhad
摘 要:Self-propagating high-temperature synthesis(SHS) was used to fabricate a Fe(Cr)–Al2 O3 nanocomposite. The composite was fabricated by the reactions between the powders of Fe, Fe2 O3, Cr2 O3, and Al. The effect of blending ratio and mechanical activation of the initial powders and the precursor compressing pressure on the microstructure of the final product was studied by optical microscopy, scanning electron microscopy, transmission electron microscopy, and X-ray diffraction. The significance of the effect of each of the aforementioned parameters on the quality of the composite(assessed by measuring the compressive strength and wear resistance) was determined using a full-factorial design of experiments method. The results showed that the best molar powder ratio that produced the most homogeneous product through a sustainable SHS reaction was Fe:Fe2 O3:Cr2 O3:Al = 10:1:1:4. A lower Fe content caused the Fe(Cr) phase to melt and separate from the rest of the materials.
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