Simulation of ingotless rolling-extruding of rods from alloy of Al-Zr system and investigating into their properties


Тип публикации: доклад, тезисы доклада, статья из сборника материалов конференций

Конференция: International Conference on Material Science and Engineering, ICMSE 2019

Год издания: 2020

Ключевые слова: Aluminum alloy, Electrical resistivity, Heat resistance, Ingotless rolling-extruding, Mechanical properties, Modeling in deform 3D, ZirconiumBinary alloys, Ingots, Rolling, Software packages, Zircaloy, Deform 3D software, Deformation parameter, Process condition, Processing parameters, Semi-finished products, Aluminum alloys

Аннотация: Computer simulation of the process of ingotless rolling-extruding (IRE) of aluminum alloy rods with a content of 0.15% zirconium in the Deform 3D software package performed. The temperature, speed and deformation parameters of the treatment of the investigated alloy determined under different process conditions. To check the adequaПоказать полностьюcy of the models, rod samples were made on a CRE-200 laboratory unit at specified processing parameters. Using the Deform 3D software package, the forces acting on the rolls and the extruding die during the IRE determined and their comparison with tensometric experimental data presented. The mechanical properties, electrical resistivity of semi-finished products after processing by the method of ingotless rollingextruding and for conditions of their heating to 230 °C investigated. Technological recommendations for the manufacture of deformed semi-finished products using the method of ingotless rolling-extruding are proposed.

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Журнал: Key Engineering Materials

Выпуск журнала: vol. 837 KEM

Номера страниц: 3-8

ISSN журнала: 10139826

Издатель: Trans Tech Publications Ltd


  • Bespalov V. (95%Krasnoyarsk%660025%Russian Federation)
  • Sidelnikov S. (95%Krasnoyarsk%660025%Russian Federation)
  • Sokolov R. (95%Krasnoyarsk%660025%Russian Federation)
  • Chumak A. (95%Krasnoyarsk%660025%Russian Federation)
  • Voroshilov D. (95%Krasnoyarsk%660025%Russian Federation)
  • Rudnitskiy E. (95%Krasnoyarsk%660025%Russian Federation)
  • Durnopyanov A. (95%Krasnoyarsk%660025%Russian Federation)
  • Voroshilova M. (95%Krasnoyarsk%660025%Russian Federation)

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