Microstructural aspects of the hcp-fcc allotropic phase transformation induced in cobalt by ball milling

, , &
Philosophical Magazine 83 (4):439-455 (2003)
  Copy   BIBTEX

Abstract

A detailed correlation between microstructure evolution and allotropic phase transformations occurring in Co when subjected to ball milling has been carried out. After short-term milling, the starting mixture of hcp + fcc Co develops into an almost pure hcp phase. However, for longer milling times, plastic deformation introduces large amounts of stacking faults, especially of twin type, in the hcp structure. As a consequence, some of the hcp Co is converted back into fcc and the hcp unit cell is progressively anisotropically distorted. After long-term milling, a steady 'pseudo-equilibrium' state is observed, where all microstructural parameters, including the fcc percentage, tend to level off. However, the milling intensity can still be adjusted to increase further the stacking-fault probability and, consequently, the amount of fcc Co in the milled powders. The results imply that the stacking-fault formation, rather than the local temperature rise or crystallite size reduction associated with the milling process, is the main mechanism governing the hcp-fcc transformation

Categories

Keywords

Reprint years

DOI

10.1080/0141861021000047159

Other Versions

No versions found

Links

PhilArchive

    This entry is not archived by us. If you are the author and have permission from the publisher, we recommend that you archive it. Many publishers automatically grant permission to authors to archive pre-prints. By uploading a copy of your work, you will enable us to better index it, making it easier to find.

    Upload a copy of this work     Papers currently archived: 103,945

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Kinetics of the allotropic hcp–fcc phase transformation in cobalt.Rico Bauer, Eric A. Jägle, Wolfgang Baumann & Eric Jan Mittemeijer - 2011 - Philosophical Magazine 91 (3):437-457.
Molecular dynamics study of the milling-induced allotropic transformation in cobalt.Kosuke O. Hara, Eiji Yamasue, Hideyuki Okumura & Keiichi N. Ishihara - 2012 - Philosophical Magazine 92 (16):2117-2129.
Microstructural evolution and grain subdivision mechanisms during severe plastic deformation of aluminum particles by ball milling.S. S. Razavi-Tousi & J. A. Szpunar - 2015 - Philosophical Magazine 95 (13):1425-1447.
Phase transformations in Al70Ni24Fe6decagonal system during high energy ball milling.T. P. Yadav, N. K. Mukhopadhyay, M. A. Shaz, R. S. Tiwari & O. N. Srivastava - 2006 - Philosophical Magazine 86 (3-5):397-404.
Irradiation-induced stacking fault tetrahedra in fcc metals.R. Schäublin, Z. Yao, N. Baluc & M. Victoria - 2005 - Philosophical Magazine 85 (4-7):769-777.
Irradiation-induced stacking fault tetrahedra in fcc metals.R. Schäublin *, Z. Yao, N. Baluc & M. Victoria - 2005 - Philosophical Magazine 85 (4-7):769-777.
Combined effects of crystallographic orientation, stacking fault energy and grain size on deformation twinning in fcc crystals.W. Z. Han, Z. F. Zhang, S. D. Wu & S. X. Li - 2008 - Philosophical Magazine 88 (24):3011-3029.
Microstructural evolution characterization of Fe–Nb–B ternary systems processed by ball milling.Jhon J. Ipus, Javier S. Blázquez, Sergio Lozano-Perez & Alejandro Conde - 2009 - Philosophical Magazine 89 (17):1415-1423.
Dislocation and stacking fault core fields in fcc metals.C. H. Henager & R. G. Hoagland - 2005 - Philosophical Magazine 85 (36):4477-4508.
Creep deformation of single crystals of new Co–Al–W-based alloys with fcc/L12two-phase microstructures.Katsushi Tanaka, Masahiro Ooshima, Nobuyasu Tsuno, Akihiro Sato & Haruyuki Inui - 2012 - Philosophical Magazine 92 (32):4011-4027.

Analytics

Added to PP
2015-02-07

Downloads
7 (#1,686,970)

6 months
2 (#1,353,553)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

Add more citations

References found in this work

No references found.

Add more references