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Author (up) Martinez, C.; Aguilar, C.; Briones, E.; Guzman, D.; Zelaya, E.; Troncoso, L.; Roja, P.A. doi  openurl
  Title Effects of Zr on the amorphization of Cu-Ni-Zr alloys prepared by mechanical alloying Type
  Year 2018 Publication Journal of Alloys and Compounds Abbreviated Journal J. Alloys Compd.  
  Volume 765 Issue Pages 771-781  
  Keywords BULK METALLIC GLASSES; SOLID-SOLUTION; CRYSTALLINE; FABRICATION; EVOLUTION; POWDERS; SYSTEM; NB; TI  
  Abstract This work presents the effects of high energy milling with different Ni and Zr ratios on the amorphization of ternary Cu-Ni-Zr alloys (initially, Cu-43Ni-7Zr, Cu-12Ni-31Zr, Cu-33Ni-7Zr, and Cu-12Ni-23Zr; and later, Cu-23Ni-15Zr and Cu-11Ni-7Zr). Microstructure was determined using X-Ray diffraction and electron microscopy. Results were compared to thermodynamic models. In the ternary alloys under study, the lattice parameter of the Cu-Ni solid solution was generally correlated to the amounts of nickel incorporated into the Cu lattice. However, longer milling times reduced that lattice parameter and facilitated Zr insertion into the solid solution. For example, after 5 h of milling time, microstructural analysis showed the formation of a solid solution with cubic structure in Cu-43Ni-7Zr. This pattern is consistent with the presence of a lattice parameter between that of Cu and Ni (alpha-phase); in contrast, the Cu-33Ni-7Zr alloy showed an alpha-phase and another similar to Zr. Results suggest that, as the amount of nickel increases, the ability to form an amorphous phase decreases. Additionally, experimental and thermodynamic data showed a solid-solution formation stage, followed by an amorphous phase formation stage that occurred as milling time and Zr content increased. (C) 2018 Published by Elsevier B.V.  
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  ISSN 0925-8388 ISBN Medium  
  Area Expedition Conference  
  Notes WOS:000444341900095 Approved  
  Call Number UAI @ alexi.delcanto @ Serial 1406  
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