Study on the Applicability of Neutron Radiation Damage Method Used for High-Temperature Superconducting Tape Based on Geant4 and SRIM

Superconducting Bi1.68Pb0.32Sr1.75Ca1.85Cu2.85O10+y (Bi-2223) powders were prepared by a conventional solid-state reaction using hand grinding and wet ball milling. The effects of the ball milling and sintering times on the phase evolution were examined by X-ray diffraction and magnetic susceptibility measurements. Single-phase Bi-2223 powders with a superconducting transition temperature of about 108 K were optimally prepared by wet ball milling for 20 h and sintering at 867 °C for 80 h. Finding these optimal preparation conditions were crucial for mass producing high-quality single-phase Bi-2223 precursor powders with a much lower cost of energy. Furthermore, we found that ball milling led to thinner grains than hand grinding.

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Optimization for preparing Bi_1.68Pb_0.32Sr_1.75Ca_1.85Cu_2.85O_10+y powders by wet ball milling

Chen

Shao²,

Zhao³

et al. 2022

Mater. Res. Express

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Study on the Applicability of Neutron Radiation Damage Method Used for High-Temperature Superconducting Tape Based on Geant4 and SRIM

Cited by 1 publication

References 23 publications

Optimization for preparing Bi_1.68Pb_0.32Sr_1.75Ca_1.85Cu_2.85O_10+y powders by wet ball milling

Optimization for preparing Bi_1.68Pb_0.32Sr_1.75Ca_1.85Cu_2.85O_10+y powders by wet ball milling

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Study on the Applicability of Neutron Radiation Damage Method Used for High-Temperature Superconducting Tape Based on Geant4 and SRIM

Cited by 1 publication

References 23 publications

Optimization for preparing Bi1.68Pb0.32Sr1.75Ca1.85Cu2.85O10+y powders by wet ball milling

Optimization for preparing Bi1.68Pb0.32Sr1.75Ca1.85Cu2.85O10+y powders by wet ball milling

Contact Info

Product

Resources

About

Optimization for preparing Bi_1.68Pb_0.32Sr_1.75Ca_1.85Cu_2.85O_10+y powders by wet ball milling

Optimization for preparing Bi_1.68Pb_0.32Sr_1.75Ca_1.85Cu_2.85O_10+y powders by wet ball milling