L. I. Tushinskii scite author profile

Bands of localized plastic flow 20 -30 pm wide and up to 3000 pm long are formed in deep drawing of steel 18YuA. The development of the bands is completed with the formation of cracks due to exhaustion of the reserve of plastic properties in the steel. The special features of the process of localized flow in drawing steel 18YuA are considered.It is important to conduct deep drawing of parts without the formation of cracks, which is attained by providing uniform plastic deformation of the material. This requirement implies uniform exhaustion of the reserve of plasticity in the entire deformed volume. In turn, the uniformity of plastic deformation depends considerably on the structural state of the material. The main recommendations for increasing the crack resistance and technological plasticity of a material are connected with levelling the grain size, providing equal sizes of the particles of the second phase, and uniform distribution of them over the volume of the matrix. It should be noted that the various measures taken to eliminate the structural inhomogeneity of a material do not provide fully uniform plastic deformation in practice. The phenomenon of localization of plastic strain in limited volumes of the material occurs in both single-phase and heterophase materials [1][2][3]. In heterophase materials the processes of localization of plastic flow are manifested more markedly. In some cases we can speak of anomalous manifestation of localized flow in a deformed material.In the present work we studied the special features of plastic deformation in drawing with thinning of the walls of parts made of steel 18YuA (0.16-0.20% C, 0.25-0.45% Mn, 0.07% Si, 0.1% Cr, 0.15% Ni, 0.2% Cu, 0.02-0.08% Ai, 0.02% S, and 0.02% P) and having a nozzle shape. The studied steel in the form of sheets 3 mm thick had a ferrite-cementite structure with globular carbides; the mean size of the ferrite grains was 25 lam. The cementite particles of equiaxial shape were located predominantly over grain boundaries and grouped in chains extended in the direction of rolling (Fig. 1 ). Drawing with thinning of the walls was conducted in four passes with 35 -55% deformation. After the first two drawings the steel was subjected to recrystallization annealing.Novosibirsk State Engineering University, Novosibirsk, Russia. 254The structure was studied on an NU2E metailographic microscope. The etchant agent was an aqueous solution of ferric chloride.A metallographic analysis after the fourth drawing of steel 18YuA showed narrow extended bands with a characteristic structure. The bands are sparse, oriented in the direction of the axis of the nozzle, and virtually not connected with the crystallographic orientation of the ferrite grains. The direction of propagation of the bands is determined mainly by the stresses acting during the drawing operation. In this connection we can speak of a "superstructural" manifestation of this kind of defect. The length of the bands attains 3000 p.m, which is much greater than the size of the characteristic struct...

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Kinetics of softening processes in steel 5KhV2S after HTTMT

Tushinskii¹,

Tikhomirova²,

Reshedko³

1974

Met Sci Heat Treat

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Substructural hardening of steel

Tushinskii¹,

Батаев²

1991

Soviet Physics Journal

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Батаев

Tushinskii

et al. 2001

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L. I. Tushinskii

Features of the plastic deformation of steels with lamellar perlite structure

Localization of plastic flow in cold-deformed steel 18YuA

Kinetics of softening processes in steel 5KhV2S after HTTMT

Substructural hardening of steel

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