Development and Research of the Method of Severe Alternating Deformation in the Process of Rolling of Thick Steel Sheets and Plates Made of Non-Ferrous Alloys

Aleksandr Bogatov; Danis Sh. Nukhov

doi:10.4028/www.scientific.net/SSP.284.265

Paper Titles

Combined Methods of Laser Processing of Steel
p.242

Comparative Evaluation of Analytical Methods for the Determination of Coefficients of Friction and Stresses when Wire Rod Drawing
p.247

Crystallographic Peculiarities of Shear α-γ Transformation in Austenitic Stainless Steel in the High Temperature Area
p.253

Determination of Beta-Transus Temperature of Two-Phase Titanium Alloys Using Differential Scanning Calorimetry
p.259

Development and Research of the Method of Severe Alternating Deformation in the Process of Rolling of Thick Steel Sheets and Plates Made of Non-Ferrous Alloys
p.265

Features of the Structure Formation at Laser and Laser-Arc Deposition from Aluminum Wire
p.270

Free-Cutting Cr–Ni–Mo Steel
p.276

Geometrical Errors of Surfaces Milled with Convex and Concave Profile Tools
p.281

Heat Treatment Regimes Influence on Mechanical Properties of Forging Products of α+β- and Pseudo- β-Titanium Alloys
p.289

HomeSolid State PhenomenaSolid State Phenomena Vol. 284Development and Research of the Method of Severe...

Development and Research of the Method of Severe Alternating Deformation in the Process of Rolling of Thick Steel Sheets and Plates Made of Non-Ferrous Alloys

Abstract:

Quality improvement of the structure of thick sheets and plates, increasing the level of mechanical properties, minimization of energy and labor costs in the process of manufacturing could be achieved by using new methods of die forging and rolling with the implementation of severe alternating deformation. In this work, new methods of rolling of thick steel sheets and die forging for plates made of titanium and aluminum alloys are proposed and studied.

You might also be interested in these eBooks

Materials Engineering and Technologies for Production and Processing IV

View Preview

Info:

Periodical:

Solid State Phenomena (Volume 284)

Pages:

265-269

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.284.265

Citation:

Cite this paper

Online since:

October 2018

Authors:

Aleksandr Bogatov, Danis Sh. Nukhov*

Keywords:

Computer Simulation, Deformation Homogeneity, Die Forging of Plates Made of Aluminum Alloys, Die Forging of Plates Made of Titanium Alloys, Rolling of Thick Steel Sheets, Severe Alternating Deformation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] V.M. Segal, Processes of plastic structure formation. Segal, V.I. Reznikov, V.I. Kopylov and others. Minsk: Science and technology. (1994).

Google Scholar

[2] R.Z. Valiev, Creation of nanostructured metals and alloys with unique properties, using intense plastic deformations, Russian nanotechnologies. 1 (2006) 208-216.

Google Scholar

[3] O.A. Kaybyshev, F.Z. Utyashev, Superplasticity, grinding of microstructure and processing of hard-to-deformed alloys, Moscow, Science. (2002).

Google Scholar

[4] S.B. Sidelnikov, N.N. Dovzhenko, N.N. Zagirov, Combined and combined methods for processing non-ferrous metals and alloys, Moscow, MAX Press. (2005).

Google Scholar

[5] F.Z. Utyashev, G.I. Raab, Deformation methods for obtaining and processing ultrafine-grained and nanostructured materials, Ufa: Guillem. NIC Bashk. (2013).

Google Scholar

[6] S.P. Burkin, A.V. Razinkin, New technology for forging large-sized slabs, Innovative technologies in metallurgy and machine building: Proceedings of the VIII International Youth Scientific and Practical Conference. Ekaterinburg: UrFU, (2013).

Google Scholar

[7] V.A. Tyurin, Innovative forging technology, Forging and stamping production. 5 (2006) 27-29.

Google Scholar

[8] V.А. Tyurin, I.V. Larionov, A.A. Chuchkov, A.S. Volkov, Technological capabilities of forging with strikers with non-orthogonal crossing fronts. Forging and stamping production. Processing of materials by pressure. 12 (2014) 26-28.

Google Scholar

[9] Zhubai Liu, Weimin Li, Mechanical Analysis of the Difficulty in Forging Heavy Tube Plates with Conventional Methods. Hot Forming of Steels and Product Properties. (2009) 165-174.

Google Scholar

[10] I.S. Aliev, Ya.G. Zhbankov, A.V. Perig, Factors affecting the parameters of forging large forgings, Herald of the PNIPU. Machine building, material science. 1(15) (2013) 27-45.

Google Scholar

[11] Kun Chen, Yitao Yang, Guangjie Shao, Kejia Liu, Strain function analysis method for void closure in the forging process of the large-sized steel ingot, Computational Materials Science. 51 (2012) 72-77.

DOI: 10.1016/j.commatsci.2011.07.011

Google Scholar

[12] A.A. Bogatov, D.Sh. Nukhov, K.P. P'yankov, Finite-Element Modeling of Plate-Rolling, Metallurgist. 1-2(59) (2015) 113-118.

DOI: 10.1007/s11015-015-0069-6

Google Scholar