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Structure and mechanical properties of an AlCr6Fe2Ti1 alloy produced by rapid solidification powder metallurgy method

  • Alena Michalcová , Dalibor Vojtěch , Pavel Novák , Petr Šittner , Jan Pilch , Jan Drahokoupil and Kamil Kolařík
Published/Copyright: May 15, 2013
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International Journal of Materials Research
From the journal International Journal of Materials Research Volume 101 Issue 2

Abstract

In the present paper, the structure and properties of a Al–Cr–Fe–Ti alloy produced by powder metallurgy are described. An initial rapidly solidified powder alloy was prepared by the pressure nitrogen melt atomisation. Subsequently, the granulometric powder fraction of less than 45 μm was hot-extruded. According to X-ray diffraction and transmission electron microscopy observation, the compact material is composed of α-Al grains and spheroids of intermetallic phases. The α-Al grains of the compacted material are recrystallized and neither residual stress nor texture were observed. The values of ultimate tensile strength and yield strength of the investigated material were similar to the values for conventional Al-based alloys. Dependences of ultimate tensile strength and yield strength on temperature were also measured. Excellent thermal stability of the powder metallurgy produced Al–Cr-based material was proven by room-temperature hardness measurement after long-term annealing at elevated temperature.

Keywords: Aluminium; Rapid solidification; Hot-extrusion
Correspondence address, Alena Michalcová, Ing. Department of Metals and Corrosion Engineering Institute of Chemical Technology, Prague Technická 5, Praha 6, 166 28, Czech Republic Tel.: +4202 2044 4055 E-mail:

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Received: 2008-9-18
Accepted: 2009-4-2
Published Online: 2013-05-15
Published in Print: 2010-02-01

© 2010, Carl Hanser Verlag, München

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https://doi.org/10.3139/146.110274
Keywords for this article
Aluminium; Rapid solidification; Hot-extrusion

Articles in the same Issue

  1. Contents
  2. Contents
  3. Editorial
  4. Materials for Information Technology
  5. Feature
  6. Advanced high-k/metal gate stack progress and challenges – a materials and process integration perspective
  7. Spintronics in metallic superconductor/ferromagnet hybrid structures
  8. Graphene metrology and devices
  9. The role of defects in resistively switching chalcogenides
  10. Materials in optical data storage
  11. Scaling effects on microstructure and reliability for Cu interconnects
  12. Effects of e-beam curing on glass structureand mechanical properties of nanoporous organosilicate thin films
  13. Printing materials for electronic devices
  14. Basic
  15. Characterisation of lead – calcium alloys ageing in anisothermal conditions by calorimetric, resistance and hardness in-situ measurements
  16. Thermodynamic predictions of Mg – Al – Ca alloy compositions amenable to semi-solid forming
  17. Capillary equilibrium in a semi-solid Al – Cu slurry
  18. A comparative study of room-temperature creep in lead-free tin-based solder alloys
  19. Modeling creep in a thick composite cylinder subjected to internal and external pressures
  20. Applied
  21. The oxidation behaviour of the 9 % Cr steel P92in CO2- and H2O-rich gases relevant to oxyfuel environments
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