Research about the effect of sintering time on the phase purity level of superconductor BPSCCO-2223 at the level of Ca 2,10 has been synthesized using the wet-mixing method. Synthesis carried out by slowly dissolving HNO3 and aquades then gradually for 40 hours dried out at a temperature of 300, 400, 600 °C. The sample was calcined for 10 hours at 800 °C and sintered using variations of time 10, 20, 30, and 40 hours at 865°C. Variations were carried out to determine the effect of sintering time on the purification of the superconductor. XRD result shows a decrease in phase purity with increasing the sintering time. Volume fraction that is relatively high at BPSCCO-2223/ts10 is 88,88%. While the lowest volume fraction of BPSCCO-2223/ts40 is 71,51%. The relative high orientation degree of BPSCCO-2223/ts30 is 33,76% and the lowest orientation degree of BPSCCO-2223/ts20 is 22,21%. The SEM result shows that all samples have layers arranged (oriented) by empty spaces between the plate (void) is relatively small.

A. Nurmalita, Nailul, and Fauzi, “XRD analysis of Bi-2212 superconductors: prepared by the self-flux method,” J. Nat., vol. 13, no. 1, pp. 23–27, 2013.

G. C. Sukirman, E., Adi, W. A., Winatapura, D. S., Sulungbudi, “Review Kegiatan Litbang Superkonduktor Tc Tinggi di P3IB-BATAN,” J. Sains Mater. Indones., vol. 4, no. 2, pp. 30–39, 2003.

K. Sato, “Bismuth-based oxide (BSCCO) high-temperature superconducting wires for power grid applications: Properties and fabrication,” in Superconductors in the Power Grid: Materials and Applications, 2015.

S. Reviana, “Pembentukan fase superkonduktor Bi-2223 dengan doping Pb (BPSCCO-2223) pada kadar Ca = 2,10 dengan variasi suhu sintering,” Universitas Lampung, 2013.

Luisana, “Proses pembuatan bahan superkonduktor BSCCO dengan metode padatan,” Maj. Metal., vol. 28, no. 2, pp. 73–78, 2013.

and F. Ginley, D. S., Taylor, D., Handbook of Superconducting Materials. United Kigdom: IOP Publishing, 2002.

F. Afriani, “Variasi kadar CaCO3 dalam pembentukan fase superkonduktor BSCCO-2223 dengan doping Pb (BPSCCO-2223),” Universitas Lampung, 2013.

H. Widodo, and Darminto, “Nanokristalisasi Superkonduktor Bi2SrCa2Cu3O10+δ dan Bi1,6Pb0,4Sr2Ca2Cu3O10+δ dengan Metode Kopresipitasi dan Pencampuran Basah,” J. Ilmu Pengetah. dan Teknol. TELAAH, vol. 28, pp. 6–19, 2010.

L. Rohmawati, and Darminto, “Nanokristalisasi Superkonduktor (Bi,Pb)2Sr2CaCu2O8+δ dengan Metode Pencampuran Basah,” Berk. Fis., vol. 4, no. 1, pp. 22–26, 2012.

S. Siswayanti, B., Agung, I., Amirul, H., Ikhlasul, M. A., Hendrik, dan Pius, “Sintesis Pelet Bi-Sr-Ca-Cu-O dengan Suhu Sintering Rendah dan Analisa Sifat Superkonduktivitasnya,” in Prosiding Seminar Material Metalurgi, 2015, pp. 227–231.

Parikin, “Penelitian pengaruh waktu sintering terhadap pertumbuhan fasa 2223 superkonduktor Bi-Pb-Sr-Ca-Cu-O dengan metode rietveld,” in Prosiding Pertemuan dan Presentasi Ilmiah, 1996, pp. 127–132.

I. Marhaendrajaya, “Eksperimen pembentukan kristal BPSCCO-2223 dengan metode lelehan,” Berk. Fis., vol. 4, no. 2, pp. 33–40, 2001.

M. Diantoro, “Studi kinetika pembentukan superkonduktor sistem Bi1,6Pb0,4Sr2Ca2Cu3O10+δ (2223) melalui prekursor fase (Bi,Pb)-2212,” Institut Teknologi Bandung, 1997

.