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Evaluation of the Radiation-Protective Properties of Bi (Pb)-Sr-Ca-Cu-O Ceramic Prepared at Different Temperatures with Silver Inclusion.

Essia HannachiKarem A MahmoudAljawhara H AlmuqrinMohammad Ibrahim AbualsayedYassine Slimani
Published in: Materials (Basel, Switzerland) (2022)
The influences of the sintering process and AgNO 3 addition on the phase formation and radiation shielding characteristics of Bi 1.6 Pb 0.4 Sr 2 Ca 2 Cu 3 O 10 were studied. Three ceramics (code: C0, C1, and C2) were prepared as follows: C0 was obtained after calcination and only one sintering step, C1 was obtained after calcination and two sintering cycles, and C2 was prepared after the addition of AgNO 3 at the beginning of the final sintering stage. C2 displayed the maximum volume fraction of the Bi-2223 phase (76.4 vol%), the greatest crystallite size, and high density. The linear mass attenuation coefficient (µ) has been simulated using the Monte Carlo simulation. The µ values are high at 15 keV (257.2 cm -1 for C0, 417.57 cm -1 for C1, and 421.16 cm -1 for C2), and these values dropped and became 72.58, 117.83 and 133.19 cm -1 at 30 keV. The µ value for the ceramics after sintering is much higher than the ceramic before sintering. In addition, the µ value for C2 is higher than that of C1, suggesting that the AgNO 3 improves the radiation attenuation performance for the fabricated ceramics. It was demonstrated that the sintering and AgNO 3 addition have a considerable influence on the ceramic thickness required to attenuate the radiation.
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