Author:
Sewak R.,Dey C. C.,Toprek D.
Abstract
AbstractTemperature dependent phase transformation behavior in cobalt from hexagonal close-packed (hcp) to face centered cubic (fcc) has been found to be contradictory to that reported earlier. It is found that hcp phase stabilizes at both low and high temperature ($$\sim $$
∼
873 K) while fcc phase is stabilized at $$\sim $$
∼
500 K. At 298 K, hcp Co has been found to be predominant ($$\sim $$
∼
70%) where hcp magnetic phase is $$\sim $$
∼
60%. At 973 K, hcp phase is again predominant ($$\sim $$
∼
73%), but it is mainly the non-magnetic phase ($$\sim $$
∼
67%). Contrary to present results, it was found earlier that fcc phase was stabilized at high temperature and hcp to fcc transformation occured at $$\sim $$
∼
700 K. Present results from perturbed angular correlation measurements, therefore, requires a new theoretical interpretation for Co phase transformation. From present measurements, hyperfine magnetic fields in Co at room temperature for the hcp and fcc phases have been found to be 18.7(6) and 12.8(3) T, much lower than earlier reported results. The hyperfine magnetic fields at $$^{181}$$
181
Ta impurity atom have been calculated by density functional theory (DFT) employing the full potential (linearized) augmented plane wave method (FP-LAPW). Present calculated results for both hcp and fcc phases corroborate our experimental results.
Funder
Department of Atomic Energy, Government of India
Publisher
Springer Science and Business Media LLC
Cited by
6 articles.
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