High power fiber lasers: current status and future perspectives [Invited]

A reversible strain effect on transport critical current I c was found in Bi 2 Sr 2 CaCu 2 O 8+x (Bi-2212) high-temperature superconducting round wires. I c 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, I c 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. I c (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 I c if buckling of Bi-2212 grains does not occur, and should result in a wider I c (ε) plateau in the applied tensile regime without degradation of the initial I c. 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.

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Crystallization of Bi–Sr–Ca–Cu–O glasses in oxygen

Holesinger

Miller

Chumbley

1992

J. Mater. Res.

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A detailed study of the crystallization process for compositions near Bi2Sr2Ca1Cu2Oy was undertaken using differential thermal analysis (DTA), transmission and scanning electron microscopy (TEM and SEM), and x-ray diffraction (XRD). Glasses prepared by a splat-quench technique were free of secondary phases in most cases. A two-step crystallization process in oxygen was observed in which partial crystallization of the glass occurs initially with the nucleation of “2201” and Cu2O, and is completed with the formation of SrO, CaO, and Bi2Sr3−xCaxOy. No specific thermal event could be associated with the formation of the “2212” phase. Rather, formation occurs via conversion of 2201 into 2212. This was a kinetically limited process at temperatures below 800 °C as other phases were found to evolve in addition to the 2212 phase during extended anneals. In contrast, a nearly full conversion to the 2212 phase occurred after only 1 min of annealing at 800 °C and above. However, changes in resistivity data, secondary phases, and the measured 2212 composition upon extended anneals at 865 °C showed that considerably longer heat treatments were necessary for the sample to reach its equilibrium state.

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Electromechanical Characterization of Bi-2212 Strands

Lu¹,

Cheggour²,

Stauffer³

et al. 2011

IEEE Trans. Appl. Supercond.

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T.G. Holesinger

Reversible effect of strain on transport critical current in Bi₂Sr₂CaCu₂O_{8 +x}superconducting wires: a modified descriptive strain model

Crystallization of Bi–Sr–Ca–Cu–O glasses in oxygen

Electromechanical Characterization of Bi-2212 Strands

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T.G. Holesinger

Reversible effect of strain on transport critical current in Bi2Sr2CaCu2O8 +xsuperconducting wires: a modified descriptive strain model

Crystallization of Bi–Sr–Ca–Cu–O glasses in oxygen

Electromechanical Characterization of Bi-2212 Strands

Contact Info

Product

Resources

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Reversible effect of strain on transport critical current in Bi₂Sr₂CaCu₂O_{8 +x}superconducting wires: a modified descriptive strain model