Recovery method of zirconium based amorphous alloy
A technology of zirconium-based amorphous alloys and amorphous alloys, applied in the direction of improving process efficiency, etc., to achieve the effects of saving resources, improving bending strength, and reducing production costs
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[0013] The inventors have found through a large number of experiments that when the oxygen content is high, the amorphous forming ability of the amorphous alloy will be correspondingly weakened and the brittleness will be enhanced. When the oxygen content in the alloy increases from 590ppm to 3000ppm, the critical cooling rate of the alloy increases by at least one order of magnitude. Oxide-induced heterogeneous nucleation in alloy melts is the main reason why oxygen reduces the glass-forming ability of bulk amorphous alloys. Moreover, the inventors also found that oxygen tends to segregate and enrich in the pro-eutectoid crystal, and the microcosmic mechanism of oxygen action is based on the influence of crystal nucleation in the supercooled melt of the alloy. Therefore, oxygen has an adverse effect on the glass-forming ability shown in the cooling and solidification process of the amorphous alloy melt and the thermal stability shown in the heating process after obtaining the...
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