Nickel-based oxide dispersion strengthened alloy material and preparation method thereof

The invention discloses a nickel-based oxide dispersion strengthened alloy material and a preparation method thereof. The alloy material is prepared by mixing two kinds of nickel-based alloy powder with different melting points. The high-melting-point alloy powder comprises, by weight, 74.1%-77.1% o...

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Hauptverfasser:	LI XIAOQIANG, QU SHENGGUAN, ZHU ZHENCEN, WANG XUECHENG, LIANG LIANG, SHAO YONGLIN
Format:	Patent
Sprache:	chi ; eng
Schlagworte:	ALLOYS CASTING CHEMISTRY FERROUS OR NON-FERROUS ALLOYS MAKING METALLIC POWDER MANUFACTURE OF ARTICLES FROM METALLIC POWDER METALLURGY PERFORMING OPERATIONS POWDER METALLURGY TRANSPORTING TREATMENT OF ALLOYS OR NON-FERROUS METALS WORKING METALLIC POWDER
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creator	LI XIAOQIANG QU SHENGGUAN ZHU ZHENCEN WANG XUECHENG LIANG LIANG SHAO YONGLIN
description	The invention discloses a nickel-based oxide dispersion strengthened alloy material and a preparation method thereof. The alloy material is prepared by mixing two kinds of nickel-based alloy powder with different melting points. The high-melting-point alloy powder comprises, by weight, 74.1%-77.1% of nickel, 20% of chromium, 0.5%-2% of titanium, 0.5%-2% of niobium, 1% of iron, 0.3% of aluminum and 0.6% of nanometer yttrium oxide. The low-melting-point alloy powder comprises the following components in percentage by weight: 77.6 to 79.6 percent of nickel, 20 percent of chromium, 6 to 8 percent of zirconium, 2 percent of boron, 1 percent of iron, 0.5 percent of titanium, 0.3 percent of aluminum and 0.6 percent of nano yttrium oxide; and the mass ratio of the low-melting-point alloy powder in the mixed powder is 1-3%. According to the method, the alloy powder with the high melting point and the alloy powder with the low melting point are subjected to spark plasma sintering, isothermal solidification is achieved
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The alloy material is prepared by mixing two kinds of nickel-based alloy powder with different melting points. The high-melting-point alloy powder comprises, by weight, 74.1%-77.1% of nickel, 20% of chromium, 0.5%-2% of titanium, 0.5%-2% of niobium, 1% of iron, 0.3% of aluminum and 0.6% of nanometer yttrium oxide. The low-melting-point alloy powder comprises the following components in percentage by weight: 77.6 to 79.6 percent of nickel, 20 percent of chromium, 6 to 8 percent of zirconium, 2 percent of boron, 1 percent of iron, 0.5 percent of titanium, 0.3 percent of aluminum and 0.6 percent of nano yttrium oxide; and the mass ratio of the low-melting-point alloy powder in the mixed powder is 1-3%. 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The alloy material is prepared by mixing two kinds of nickel-based alloy powder with different melting points. The high-melting-point alloy powder comprises, by weight, 74.1%-77.1% of nickel, 20% of chromium, 0.5%-2% of titanium, 0.5%-2% of niobium, 1% of iron, 0.3% of aluminum and 0.6% of nanometer yttrium oxide. The low-melting-point alloy powder comprises the following components in percentage by weight: 77.6 to 79.6 percent of nickel, 20 percent of chromium, 6 to 8 percent of zirconium, 2 percent of boron, 1 percent of iron, 0.5 percent of titanium, 0.3 percent of aluminum and 0.6 percent of nano yttrium oxide; and the mass ratio of the low-melting-point alloy powder in the mixed powder is 1-3%. 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The alloy material is prepared by mixing two kinds of nickel-based alloy powder with different melting points. The high-melting-point alloy powder comprises, by weight, 74.1%-77.1% of nickel, 20% of chromium, 0.5%-2% of titanium, 0.5%-2% of niobium, 1% of iron, 0.3% of aluminum and 0.6% of nanometer yttrium oxide. The low-melting-point alloy powder comprises the following components in percentage by weight: 77.6 to 79.6 percent of nickel, 20 percent of chromium, 6 to 8 percent of zirconium, 2 percent of boron, 1 percent of iron, 0.5 percent of titanium, 0.3 percent of aluminum and 0.6 percent of nano yttrium oxide; and the mass ratio of the low-melting-point alloy powder in the mixed powder is 1-3%. According to the method, the alloy powder with the high melting point and the alloy powder with the low melting point are subjected to spark plasma sintering, isothermal solidification is achieved</abstract><oa>free_for_read</oa></addata></record>
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subjects	ALLOYS CASTING CHEMISTRY FERROUS OR NON-FERROUS ALLOYS MAKING METALLIC POWDER MANUFACTURE OF ARTICLES FROM METALLIC POWDER METALLURGY PERFORMING OPERATIONS POWDER METALLURGY TRANSPORTING TREATMENT OF ALLOYS OR NON-FERROUS METALS WORKING METALLIC POWDER
title	Nickel-based oxide dispersion strengthened alloy material and preparation method thereof
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