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Reversible effect of strain on transport critical current in Bi2Sr2CaCu2O8+x superconducting wires: A modified descriptive strain model



Najib Cheggour, Xifeng Lu, T G. Holesinger, Theodore C. Stauffer, J Jiang, Loren F. Goodrich


A reversible strain effect on transport critical current Ic was found in Bi2Sr2CaCu2O8+x (Bi-2212) high-temperature superconducting round wires. Ic showed unambiguous reversibility at 4 K and 16 T up to an irreversible strain limit of about 0.3 % in longitudinal tension, prompting hope that the Bi-2212 conductor has the potential to sustain mechanical strains generated in high-field magnets. However, Ic was not reversible under longitudinal compression and buckling of Bi-2212 grain colonies was identified as the main reason. A two-component model was proposed, which suggests the presence of mechanically weak and strong Bi-2212 components within the wire filaments. Porosity embedded in the weak component renders it structurally unsupported and, therefore, makes it prone to cracking under strain ε. Ic(ε) is irreversible in tension if the weak component contributes to the transport critical current but becomes reversible once connectivity of the weak component is broken through strain increase or cycling. A modified descriptive strain model was also developed, which illustrates the effect of strain in the Bi-2212 conductor and supersedes the existing descriptive model. Unlike the latter, the new model suggests that higher pre-compressive strains should improve Ic if buckling of Bi-2212 grains does not occur, and should result in a wider Ic(ε) plateau in the applied tensile regime without degradation of the initial Ic. The new model postulates that a reversible strain effect should exist even in the applied compressive strain regime if buckling of Bi-2212 grains could be prevented through elimination of porosity and mechanical reinforcement of the wire.
Superconductor Science and Technology


Reversible Strain Effect, Bi-2212, Strain Model, Critical Current, Buckling, Cracks, Porosity, Microstructure


Cheggour, N. , Lu, X. , Holesinger, T. , Stauffer, T. , Jiang, J. and Goodrich, L. (2011), Reversible effect of strain on transport critical current in Bi<sub>2</sub>Sr<sub>2</sub>CaCu<sub>2</sub>O<sub>8+x</sub> superconducting wires: A modified descriptive strain model, Superconductor Science and Technology, [online], (Accessed July 12, 2024)


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Created December 5, 2011, Updated February 19, 2017