Abstract
Based on the rotational symmehy of the principal axes of X[100], Y[010] and Z[001], 72 possible combinations of the five slips on {110} planes based on Taylor's formidable restriction rule of the five slips are calculated among three kinds of intersections of two {110} planes on 〈111〉 direction in bcc metal. Crystal rotation is carried out by only one solution among the 72 by the minimum total slip at every strain and simulates properly lengthy of accumulated researcher's experimental results such as the three stable orientations of bcc metal in rolling {112}〈110〉, {11 11 8}〈4 4 11〉 and {100}〈011〉.
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