Alloys Exhibiting Spinodal Glass Matrix Microconstituents Structure And Deformation Mechanisms
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机译:呈现旋节状玻璃基微成分的合金的结构和变形机理
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摘要
A method of forming an alloy composition including spinodal based glass matrix microconstituents. The method comprises melting an alloy composition comprising iron present in the range of 49 atomic percent (at %) to 65 at %, nickel present in the range of 10.0 at % to 16.5 at %, cobalt optionally present in the range of 0.1 at % to 12 at %, boron present in the range of 12.5 at % to 16.5 at %, silicon optionally present in the range of 0.1 at % to 8.0 at %, carbon optionally present in the range of 2 at % to 5 at %, chromium optionally present in the range of 2.5 at % to 13.35 at %, and niobium optionally present in the range of 1.5 at % to 2.5 at %, cooling the alloy composition at a rate of 103 K/s to 106 K/s.
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机译:一种形成合金组合物的方法,所述合金组合物包括基于旋节线的玻璃基质微成分。该方法包括熔化合金组合物,该合金组合物包括铁,该铁的含量在49原子百分比(原子%)至65原子%的范围内,镍在10.0原子%至16.5原子%的范围内,钴任选地在0.1原子%的范围内存在。到12原子%,硼以12.5原子%至16.5原子%的范围存在,硅可选地以0.1原子%至8.0原子%的范围存在,碳可选地以2原子%至5原子%的范围存在,铬合金成分以10 3 Sup> K / s的速度冷却,任选地在2.5at%至13.35at%的范围内,铌任选地在1.5at%至2.5at%的范围内。达到10 6 Sup> K / s。
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