Abstract
The crystallographic texture of sheets from low-carbon steel can be, on the one hand, a means for controlling the process of their fabrication in the last rolling stage and, on the other hand, can be an indicator of the capacity of the rolled metal to resist fracture in ready parts, for example, in thin-wall gas transmission pipes operating under the conditions of high internal pressures.
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REFERENCES
A. V. Darkov and G. S. Shpiro, Strength of Materials [in Russian], Vysshaya Shkola, Moscow (1969).
F. Pickering, Physical Metallurgy and Development of Steels [Russian translation], Metallurgiya, Moscow (1982).
N. P. Lyakishev, I. V. Égiz, and V. F. Shamrai, “Texture and crystallographic features of fracture in the material of pipes from steel Kh70,” Metally, No. 2, 68–72 (2000).
N. P. Lyakishev, V. F. Shamrai, E. B. Rubina, et al., “Textures of sheets from silicon-manganese low-carbon steels,” Perspect. Mater., No. 6, 42–51 (1998).
I. V. Égiz, A. A. Babareko, and V. F. Shamrai, “Distribution of cracks in rolled textured sheets from ferritic steel and parts from them,” Metally, No. 6, 80–90 (2000).
I. V. Égiz and V. F. Shamrai, “Design and plotting of right pole figures for textures of the phase transformation in iron,” Metalloved. Term. Obrab. Met., No. 2, 9–12 (2001).
C. E. Richards, “The influence of material properties on fatigue crack propagation as demonstrated by experiments on silicon iron,” Acta Met., 19(7), 583–596 (1971).
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Égiz, I.V., Shamrai, V.F. Crystallographic Texture as a Means for Controlling the Rolling Process of Low-Carbon Sheet Steel. Metal Science and Heat Treatment 45, 35–38 (2003). https://doi.org/10.1023/A:1023948129869
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DOI: https://doi.org/10.1023/A:1023948129869