Radial-Shear Rolling of Titanium Alloy VT-8 Bars with Controlled Structure for Small Diameter Ingots (≤200 mm)
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Yu. Adno, “Phenomenon of metallurgical miniplants,” Mir. Ekon. Mezhdunar. Otnosh., No. 3, 34–45 (2014).
A. N. Smmirnov, V. M. Safonov, L. V. Dorokhova, and A. Yu. Tsuprun, Metallurgical Miniplants, Nord-Press, Donetsk (2005).
V. K. Aleksandrov, N. F. Anoshkin, A. P. Belozerov, et al., Titanium Alloy Semiproducts, VILS, Moscow (1996).
I. N. Potapov and P. I. Polukhin, Screw Rolling Technology, Metallurgiya, Moscow (1990).
S. P. Galkin, “Regulating radial-shear and screw rolling on the basis of the metal trajectory,” Steel in Transl., 34, No. 7, 57–60 (2004).
A. N. Nikulin, Screw Rolling. Stresses and Strains, Metallurgizdat, Moscow (2015).
A. V. Goncharuk, B. A. Romantsev, V. K. Mikhailov, et. al., Patent 2179900 RF, IPC В21В19/00, “Screw rolling method and device for accomplishing it,” subm.. 04.28.2001, publ. 02.27.2002, Byull., No. 6.
I. Sh. Valeev and A. Kh. Valeeva, “Change in copper M1 microhardness and macrostructure during radial shear rolling,” Pisma Mater., 3, No. 1(9), 38–40 (2013).
M. Diez, H.-E. Kim, V. Serebryany, et al., “Improving the mechanical properties of pure magnesium by three-roll planetary milling,” Mater. Sci. Eng., A612, 287–292 (2014).
A. Stefanik, A. Morel, S. Mroz, and P. Szota, “Theoretical and experimental analysis of aluminium bars rolling process in three-high skew rolling mill,” Arch. Metal. Mater., 60, No. 2, 809–813 (2015).
E. V. Naydenkin, I. V. Ratochka, I. P. Mishin, and O. N. Lykova, “Evolution of the structural-phase state of a VT22 titanium alloy during helical rolling and subsequent aging,” Russ. Phys. J., 58, No. 8, 1068–1073 (2015).
S. P. Galkin, I. V. Doronin, A. E. Antoshchenkov, et al., “Use of radial screw rolling for preparing ledeburite class structure in steels, of naturally precipitation hardened composite materials,” Tekhnol. Metallov, No. 4, 6–8 (2007).
A. Kh. Valeeva, I. Sh. Valeev, and R. F. Fazlyakhmetov, “Microstructure of the β-phase in the Sn11Sb5.5Cu babbit,” Phys. Metals Metallogr., 118, No. 1, 48–51 (2017).
A. B. Naizabekov, S. N. Lezhnev, H. Dyja, et al., “The effect of cross rolling on the microstructure of ferrous and nonferrous metals and alloys,” Metallurgiya, 56, No. 1–2, 199–202 (2017).
N. B. Ivanov, A. V. Penkin, Yu. P. Kolobov, et al., “Thermal transverse screw rolling in rolls of conical shape as a method of intense plastic deformation,” Deform. Razrush. Mater., No. 9, 13–18 (2010).
V. V. Frolochkin, V. Yu. Kuznetsov., Patent 2245751 RF, IPC В21В19/04, “Method for preparing bushes,” subm. 10.08.2003, publ. 02.10.2005, Byull., No. 4.
E. A. Kharitonov, V. A. Sementsov, V. S. Dushin, et al., “Comparison of schemes for radial-shear rolling for the main process parameters and titanium bar structure formed,” Tekhnol. Legk. Splavov, No. 2, 96–100 (2014).