Z ro pressure album release date3/7/2024 ![]() Papynov, E.K., Shichalin, O.O., Buravlev, I.Yu., Belov, A.A., Portnyagin, A.S., Fedorets, A.N., Azarova, Yu.A., Tananaev, I.G., and Sergienko, V.I., Vacuum, 2020, vol. Ravikumar, R., Gopal, B., and Jena, H., J. Matovic, B., Prekajski Djordjevic, M., Maletaskic, J., Yoshida, K., and Yano, T., Energy Procedia, 2017, vol. Prekajski Đorđević, M., Maletaškić, J., Stanković, N., Babić, B., Yoshida, K., Yano, T., and Matović, B., Ceram. Wei, Y., Luo, P., Wang, J., Wen, J., Zhan, L., Zhang, X., Yang, S., and Wang, J., J. Hashimoto, C., Nakajima, Y., Terada, T., Itoh, K., and Nakayama, S., J. Wang, J., Wei, Y., Wang, J., Zhang, X., Wang, Y., and Li, N., Ceram. Orlova, A.I., Volgutov V.Yu., Mikhailov, D.A., Bykov, D.M., Skuratov, V.A., Chuvil’deev, V.N., Nokhrin, A.V., Boldin, M.S., and Sakharov, N.V., J. ![]() Pet’kov, V., Asabina, E., Loshkarev, V., and Sukhanov, M., J. Yang, Y., Ning, X., Luo, S., Dong, F., and Li, L., Procedia Environ. Shichalin, O.O., Belov, A.A., Zavyalov, A.P., Papynov, E.K., Azon, S.A., Fedorets, A.N., Buravlev, I.Yu., Balanov, M.I., Tananaev, I.G., Shi, Y., Zhang, Q., Niu, M., Liu, W., and Portnyagin, A.S., Ceram. Liu, H., Wang, H., Zhao, J., Li, J., Zhang, X., Yang, J., Zhu, Y., Xie, R., Zheng, K., Huang, H., and Huo, J., Ceram. Zhang, Y., Kong, L., Ionescu, M., and Gregg, D.J., J. Pilania, R.K., Pathak, N., Saini, M., Sooraj, K.P., Ranjan, M., and Dube, C.L., Ceram. Wen, M.F., Yu, B., Luo, M., and Chen, J., Adv. Stefanovsky, S.V., Yudintsev, S.V., Gieré, R., and Lumpkin, G.R., Energy, Waste and Environment: Geological Society of London Special Publications, 2004, vol. It was shown that over testing in distilled water and in mineral water (up to 7 days) Sr leaching occurs due to the dissolution of the surface layer of ceramics and after 7 days of testing in mineral water, due to washing out of Sr from the open ceramic surface. The influence of the contact environment on the rate and mechanism of Sr leaching from Sr 0.5Zr 2(PO 4) 3 ceramic samples within 42 days was investigated. The minimum achieved leaching rates were ~10 –4–10 –6 g/(cm 2 day). The chemical stability of the obtained ceramics was studied in static mode at 90☌ in distilled and mineral water and in acidic and alkaline environments. The relative density of the ceramics was 97.6%. Powders and ceramics have a single-phase NZP structure. Submicron phosphate powders with particle sizes less than 1 μm were produced by the sol–gel method. ![]() Samples of ceramics based on Sr 0.5Zr 2(PO 4) 3 phosphate with the structure of the kosnarite mineral (NaZr 2(PO 4) 3, NZP) were obtained by spark plasma sintering.
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