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Digitale Medien

Enhanced metal–insulator transition and magnetoresistance in melt-processed La0.67Ca0.33MnO3 and Ho-doped manganites (2001)

Pradhan, A. K. ; Roul, B. K. ; Feng, Y. ; [weitere]

Woodbury, NY : American Institute of Physics (AIP)

Applied Physics Letters 78 (2001), S. 1598-1600

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Details

ISSN: 1077-3118

Quelle: AIP Digital Archive

Thema: Physik

Notizen: We report significant enhancement of magnetoresistance (MR) in melt-processed La0.67Ca0.33MnO3 (LCM) and in Ho-doped LCM samples. The LCM system exhibits surprising enhancement of metal–insulator transition (TIM) that coincides with the Curie transition temperature (Tc), TIM(approximate)Tc, illustrating the enhanced percolative transport and spin-polarization through grain boundaries. Surprisingly, 1 mol % of addition of Ho enhances Tc of ∼70 K with remarkable colossal MR. The nanoscale Ho distribution is consistent with the magnetic inhomogeneity-induced MR due to phase segregation in Ho-doped sample whereas charge-segregation picture is valid for undoped LCM. © 2001 American Institute of Physics.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1063/1.1354659

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Digitale Medien

Three-dimensional computational modelling of momentum, heat and mass transfer in laser surface alloying with distributed melting of alloying element (2001)

Raj, P. Mohan ; Sarkar, S. ; Chakraborty, S. ; [weitere]

Bradford : Emerald

International journal of numerical methods for heat & fluid flow 11 (2001), S. 576-599

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Details

ISSN: 0961-5539

Quelle: Emerald Fulltext Archive Database 1994-2005

Thema: Maschinenbau

Notizen: A transient, three-dimensional mathematical model of a single-pass laser surface alloying process has been developed to examine the macroscopic heat, momentum and species transport during the process. A numerical study is performed in a co-ordinate system moving with the laser at a constant scanning speed. A fixed grid enthalpy-porosity approach is used, which predicts the evolutionary development of the laser-melted pool. It is observed that the melting of the added alloying element is not instantaneous in case its melting temperature is higher as compared to that of the base metal. As a result, the addition of alloying element at the top surface cannot be accurately modelled as a mass flux boundary condition at that surface. To resolve this situation, the addition of alloying elements is formulated by devising a species generation term for the solute transport equation. By employing a particle-tracking algorithm and a simultaneous particle-melting consideration, the species source term is estimated by the amount of fusion of a spherical particle as it passes through a particular control volume. Numerical simulations are performed for Ni as alloying element on Al base metal. It is revealed that the present model makes a distinctly different prediction of composition variation within the resolidified microstructure, as compared to a model that does not incorporate any considerations of distributed melting.