Deformation-induced nonequilibrium grain-boundary phase in submicrocrystalline iron

Nanostructured Materials Pub Date : 1999-11-01 DOI:10.1016/S0965-9773(99)00383-9

V.A. Shabashov , V.V. Ovchinnikov , R.R. Mulyukov , R.Z. Valiev , N.P. Filippova

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引用次数: 13

Abstract

The shapes of Mössbauer spectra of coarse-grained annealed armco iron and submicrocrystalline (SMC) iron with a grain size of 0.22 μm were compared. The SMC was made from the armco iron by pressure shear and subsequent annealing at 420 °C. We intended to separate an additional subspectrum, which appears as a result of the grain refinement. That subspectrum was attributed to grain-boundary atoms or the “grain-boundary phase” (GBP). The volume fraction of that phase was determined. On the average, the GBP interatomic spacing was suggested to be 1% larger than that of the grain phase (GP) and the presence of considerable compressive stresses in the GBP were deduced. A possible reason for the satellite subspectrum appearing after the grain refinement was that it was attributed to a sudden change in the fundamental characteristics of the solid at a certain critical value of the lattice parameter, which varies continuously in going from the geometrical boundary to the grain center.

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亚微晶铁中变形诱导的非平衡晶界相

比较了粗晶退火armco铁和晶粒尺寸为0.22 μm的亚微晶(SMC)铁的Mössbauer光谱形状。以臂铁为原料，经压力剪切和420℃退火制备SMC。我们打算分离一个额外的子谱，这是晶粒细化的结果。该亚光谱归因于晶界原子或“晶界相”(GBP)。测定了该相的体积分数。平均而言，GBP原子间间距比晶相(GP)大1%，并推断GBP中存在相当大的压应力。晶粒细化后出现卫星子谱的一个可能原因是，在晶格参数达到某一临界值时，固体的基本特性突然发生变化，从几何边界到晶粒中心连续变化。

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Nanostructured Materials

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