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Institute of Engineering Science Ural Branch of Russian Academy of Sciences - NMP.2012.2.1-1 Joining dissimilar materials (excluding applications specific only to healthcare)

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Date of filling in 14.08.2011
Organization name Institute of Engineering Science Ural Branch of Russian Academy of Sciences
Organization adress 620049, Yekaterinburg, 34 Komsomolskaya Street, Russia
Department/Unit Laboratory of deformation and fracture
Contact person Prof. Sergei V. Gladkovsky, Head of laboratory, Doctor of Technical Science
Phone +7-343-3624217
Fax +7-343-3745330
E-Mail gsv@imach.uran.ru
Web-site http://www.imach.uran.ru
Organization type
  • Research
Special Programme
Theme
Nanosciences, nanotechnologies, materials and new production technologies (NMP)
Call identifier
FP7-NMP-2012-SMALL-6
Topic number NMP.2012.2.1-1 Joining dissimilar materials (excluding applications specific only to healthcare)
Call Deadline 08.11.2011
Short description of the organization (max 12 lines): State organization the Institute of Engineering Science Ural Branch of Russian Academy of Sciences have been created in 1988 on the basis of the Ural branch the Institute of Engineering Science of Academy of Sciences of the USSR named after of A.A.Blagonravov. 1. The major thematic directions of Institute of Engineering Science Ural Branch of Russian Academy of Sciences are: mechanics of deformable solids, novel materials and technologies, designs and constructions, and also working out of methods of nondestructive control of materials and diagnostics of machines service life. 2. Scientific personnel of laboratory of deformation and fracture over the last 5 years accumulated the experience of creation of multilayered composites from dissimilar metals and alloys by the methods of intensive energy and deformation action and investigation of their mechanical properties and fracture resistance characteristics at various kinds of loading. Institute of Engineering Science Ural Branch of Russian Academy of Sciences possesses a complex of the modern scientific equipment for evaluating physicomechanical properties and structure of layered composites at various scale levels.
Expertise offered Within the limits of the project scientific personnel of laboratory of deformation and fracture of Institute of Engineering Science Ural Branch of Russian Academy of Sciences with use of the tested methods of intensive plastic deformation (accumulative roll-bonding) and high-energy action (welding by explosion and pressure) assumes to create a number of new layered composites on the basis of dissimilar metals including composites with the powder layers, possessing the raised complex of physicomechanical and functional properties. As the basic materials for creation of layered composites copper, aluminum and it and alloys, low-carbon steels 09G2S and IF-steel, stainless steel 12Х18Н10Т, high-strength TRIP and maraging steels, and also the materials offered by coordinators of the project can be used. It is expected that improvement of composites properties in comparison with initial materials can be connected with increase in border areas between layers, development of deformation-induced martensite transformations (in composites with layers from metastable austenitic steels) and with formation of micro-, submicro - and nanocrystalline structures in separate layers. While performing the project the structure of composites at various scale levels, features of microhardness and chemical elements distribution on the border areas of layers, macro- and micromechanical properties (tension and instrumented impact tests, kinetic macro- and microindentation), thermophysical and magnetic properties, together with characteristics of fracture resistance of the received composite materials at static, impact and cyclic loading will be studied and evaluated.
Scientific keywords Layered composites Severe plastic deformation Roll-bonding Structure Mechanical properties
Publications on the topic (other references)
  • Gladkovskii S.V., Trunina T.A., Kokovikhin E.A., Vichuzhanin D.I., Golubkova I.A. Structure and properties of explosion-welded composite from steels 12Kh18N10T and 20. Metallovedenie I termicheskaya obrabotka metallov. .No 9. 2009. - P. 34-39.
  • Efros B., Pilyugin V., Patselov A., Gladkovskii S., Efros N., Loladze L., Varyukhin V. Martensitic transitions in nanocrystalline metastable materials // Materials Science and Engineering A 503 (2009). P.114–117.
  • Gladkovsky S.V., Trunina T.A., Kokovikhin E.A., Vichuzhanin D.I., Golubkova I.A. Formation of structure and properties of lamellar composite metals. Zagotovitelnye proizvodstva v mashinostroenii. No 4, 2010. - P. 41-45.
  • Gladkovsky S.V., Trunina T.A., Kokovikhin E.A., Smirnova S.V., Vichuzhanin D.I. Durability and destruction of the metal composite on the basis of copper M1 and steel 20. Izvestiya Samarskogo nauchnogo tchentra Rossiiskoi akademii nauk. Vol. 12, 2010. No 1(2).- P.321-325.
Description of previous and present experience in International Cooperation
Previous participation in EU’s Framework Programme projects