Calculation of the Amount of the Reduction Required for the Formation of Compound Layers during Cold Rolling of Bimetals

A.V. Shaparev; I. Savin

doi:10.4028/www.scientific.net/MSF.870.328

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HomeMaterials Science ForumMaterials Science Forum Vol. 870Calculation of the Amount of the Reduction...

Calculation of the Amount of the Reduction Required for the Formation of Compound Layers during Cold Rolling of Bimetals

Abstract:

Calculated values of joint plastic deformation for forming a connection layer of the bimetal during cold rolling. Deflection of the primary setting of the bimetal layers depends on the thickness and sizes of destruction blocks, the ratio of the geometric shapes of the blocks of the surface layer destruction, the external friction during rolling, the strip tension, the diameter of the rolls, the thickness of the bimetallic billet.

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Periodical:

Materials Science Forum (Volume 870)

Pages:

328-333

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.870.328

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Cite this paper

Online since:

September 2016

Authors:

A.V. Shaparev*, I. Savin

Keywords:

Bimetallic Strip, Cold Cladding, Deformation of the Stiffening Layers of the Bimetal, Size of the Blocks of the Destruction of the Surface Layers

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References

[1] S.M. Levitan, Yu.V. Konovalov, P.A. Paramoshin, Mathematical model of formation of roll thickness during rolling multilayer stack, Math. Universities: Metallurgy. 4 (1985) 59-63.

Google Scholar

[2] E. Tanaka, T. Fukuda, E. Suzuki, Duplex steel copper cladding by cold rolling, Sosay then kako. 127 (1971) 622-630.

Google Scholar

[3] A.A. Ershov, V.K. Nikiforov, P.F. Zasuha, Investigation of the effect of rolling and annealing conditions on the properties of steel, bimetal tombac, in: Proceeding of The technology of production of ferrous metals: UralNIIChM Proceedings, Sverdlovsk, 1971, pp.165-176.

Google Scholar

[4] G.E. Arkulis, The joint plastic deformation of different metals, Metallurgy, Moscow, (1964).

Google Scholar

[5] A.I. Tselikov, G.S. Nikitin, S.E. Rokotyan, The theory of longitudinal rolling: monograph, Metallurgy, (1980).

Google Scholar

[6] V.L. Kolmogorova, The ductility and fracture: a monograph, Metallurgy, Moscow, (1977).

Google Scholar

[7] A.V. Shaparev, Improving the production of bimetallic strips technology: Monograph, University Book, Kursk, (2015).

Google Scholar

[8] V.L. Kolmogorov, N. Sharafutdinov, The method of constructing the plasticity chart oxide skins, Izv. vuzov: Ferrous metallurgy. 10 (1975) 100-102.

Google Scholar

[9] E.S. Karakozov, The compound of metals in the solid phase: monograph, Metallurgy, Moscow, (1976).

Google Scholar

[10] N. Bayu, The mechanisms that define the process of cold pressure welding, in: Proceedings of the American society of mechanical engineers, Design and manufacturing engineering. 2 (1979)173-179.

Google Scholar