Abstract
Strains on the surfaces of a bulk high- T c superconductor are numerically evaluated during magnetization process by field cooling. Shielding current distributions are obtained through a macroscopic numerical simulation with the critical state model. The strain distributions are obtained through numerical analysis with the finite-difference method. Two numerical codes are combined in the iterative calculation. Large shear strain is obtained on upper and lower surfaces of the bulk during the magnetization.
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