Title :
Modeling Experimental Magnetization Cycles of Thin Superconducting Strips by Finite-Element Simulations
Author :
Iannone, Gerardo ; Farinon, Stefania ; De Marzi, Gianluca ; Fabbricatore, Pasquale ; Gambardella, Umberto
Author_Institution :
Dept. of Phys., Univ. of Salerno, Salerno, Italy
Abstract :
To broaden the use of an adaptive resistive algorithm (ARA), we present a 3-D model able to reproduce the experimental magnetic moment loop for a finite-size superconducting strip in a perpendicular field. We also develop the same model by using H-formulation, to strengthen the ARA results. We find that 2-D models computed with the two different approaches, i.e., ARA and H-formulation, provide similar results, and both well compare to approximate analytical solutions. Then, we verify that the computed magnetic moment loop by using either 3-D numerical approaches reproduces the experimental curve, i.e., the magnetic loops of a commercial YBCO-coated conductor sample measured at 5 K. Instead, the 2-D numerical data need a scaling factor to match the experimental ones. The 3-D computations provide support to the hypotheses on the current surface profile that has been used to find the scaling factor.
Keywords :
barium compounds; finite element analysis; high-temperature superconductors; magnetic moments; magnetisation; yttrium compounds; 2D models; 3D model; 3D numerical approaches; H-formulation; YBCO; YBCO-coated conductor; adaptive resistive algorithm; approximate analytical solutions; finite-element simulations; finite-size superconducting strip; magnetic moment loop; magnetization cycles; perpendicular field; scaling factor; surface profile; temperature 5 K; thin superconducting strips; Computational modeling; Current density; Finite element analysis; Magnetic fields; Numerical models; Strips; Three-dimensional displays; Critical state; finite-element analysis; hysteresis losses; magnetization loop;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2014.2345339
