Conclusions
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1.
Slip in 3% silicon-iron single crystals during extension in the directions 〈151〉 and 〈111〉 takes place on the system {110} 〈111〉, while during extension in the direction 〈331〉 it occurs on the {110} and {112} planes, and in the direction 〈111〉 with one system of the type {110} 〈111〉) predominating.
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2.
The critical shear stresses τcr for the slip direction 〈111〉 and the planes {110} and {112} vary between 9.5–10 and 11–11.3 kg/mm2, respectively.
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3.
The development of plastic flow in single crystals takes place by the movement of Lüders-Chernov bands along the specimen and their propagation by the transverse slip mechanism.
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Gaiduchenya, V.F., Molotilov, B.V. Critical shear stresses and plastic flow of 3% silicon-iron single crystals. Soviet Physics Journal 11, 14–18 (1968). https://doi.org/10.1007/BF01890911
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DOI: https://doi.org/10.1007/BF01890911