Previously, it was shown that the {100}<0vw> texture could be evolved when the specimen is under the appropriate stressduring γ → α phase transformation. Here the effect of the various process conditions on the evolution of the {100}<0vw> texturewas examined. The texture evolution was affected by the magnitude of tensile stress, the furnace atmosphere, the heattreatment time (or grain size) and the cooling rate. In Fe–1 wt% Si, the {100}<0vw> texture was 78.3% under the H2atmospherewith a flow rate of 1000 standard cubic centimeter per minute (sccm) whereas it was 16.2% under the N2atmospherewith a flow rate of 1000 sccm. The marked decrease in the percentage of the {100}<0vw> texture under the N2atmosphereis believed to be related with the surface oxidation of the specimen. In Fe–2 wt% Si–1 wt% Ni, the {100}< 0vw > texture was8.9% when the specimen was heat treated at 1100 °C for 5 min whereas it increased to 66.0% when the specimen was heattreated for 6 h. This increase of the {100}<0vw> texture is believed to be related with the increase in the grain size. Under theoptimum processing condition, the {100}<0vw> texture could be increased to as high as 92.6% in Fe–2 wt% Si–1 wt% Ni.