Institute of Bimetallic Alloys

Moscow, Russia

Institute of Bimetallic Alloys

Moscow, Russia
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Zaitsev A.I.,Bardin Central Research Institute for The Iron And Steel Industry | Rodionova I.G.,Bardin Central Research Institute for The Iron And Steel Industry | Amezhnov A.V.,Bardin Central Research Institute for The Iron And Steel Industry | Pavlov A.A.,Institute of Bimetallic Alloys
Metallurgist | Year: 2013

This article examines trends in the production and use of two-layer steels in the chemicals industry, petroleum engineering, oil-field equipment, agriculture, road-building, and maritime construction. © 2013 Springer Science+Business Media New York.


Zaitsev A.I.,Bardin Central Research Institute for The Iron And Steel Industry | Rodionova I.G.,Bardin Central Research Institute for The Iron And Steel Industry | Pavlov A.A.,Institute of Bimetallic Alloys | Baklanova O.N.,Bardin Central Research Institute for The Iron And Steel Industry | Lyasotskii I.V.,Bardin Central Research Institute for The Iron And Steel Industry
Metallurgist | Year: 2015

The importance is demonstrated of developing new low-carbon high-strength steels for a marked improvement in both mechanical and service properties of a main metal layer, strength and continuity of joined layers, and also quality characteristics of corrosion-resistant clad rolled product as a whole. In order to resolve this problem on the basis of original methods of physicochemical prediction a new low-carbon high-strength steel is created of weldable economically alloyed steel, and its main production technology is developed. It is shown that in order to achieve simultaneously high strength indices (yield strength more than 700 MPa, strength more than 850 MPa), ductility (relative elongation more than 17%), and other steel service properties, nanostructuring is of prime importance, realized with relatively slow metal cooling rates typical for preparing clad rolled product. © 2015 Springer Science+Business Media New York


Amezhnov A.V.,Bardin Central Research Institute for The Iron And Steel Industry | Rodionova I.G.,Bardin Central Research Institute for The Iron And Steel Industry | Zaitsev A.I.,Bardin Central Research Institute for The Iron And Steel Industry | Shaposhnikov N.G.,Bardin Central Research Institute for The Iron And Steel Industry | And 2 more authors.
Metallurgist | Year: 2016

Reasons are studied for surface defect formation (rolling crystallization cracks) for a bimetallic rolled product cladding layer of austenitic class corrosion-resistant steel prepared by electroslag welding. An unfavorable effect of liquation during welded layer steel crystallization is established for surface quality. Possibilities and examples are established for preventing the occurrence of surface defects by optimizing welded steel chemical composition, and also bimetallic rolled product start-to-finish manufacturing technology parameters. © 2016 Springer Science+Business Media New York


Rodionova I.G.,Bardin Central Research Institute for The Iron And Steel Industry | Baklanova O.N.,Bardin Central Research Institute for The Iron And Steel Industry | Amezhnov A.V.,Bardin Central Research Institute for The Iron And Steel Industry | Strizhakova T.I.,Bardin Central Research Institute for The Iron And Steel Industry | Pavlov A.A.,Institute of Bimetallic Alloys
Chemical and Petroleum Engineering | Year: 2012

Comparative analysis is provided for two-layer steels prepared by different methods. A method is proposed for thermal cycling tests as an evaluation of the operational reliability of equipment made from two-layer steels. © 2012 Springer Science+Business Media, Inc.

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