An SPS-RS Technique for the Fabrication of SrMoO(4) Powellite Mineral-like Ceramics for (90)Sr Immobilization

This paper reports a method for the fabrication of mineral-like SrMoO(4) ceramics with a powellite structure, which is promising for the immobilization of the high-energy (90)Sr radioisotope. The reported method is based on the solid-phase “in situ” interaction between SrO and MoO(3) oxides initiate...

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Autores principales: Belov, Anton A., Shichalin, Oleg O., Papynov, Evgeniy K., Buravlev, Igor Yu., Portnyagin, Arseniy S., Azon, Semen A., Fedorets, Alexander N., Vornovskikh, Anastasia A., Kolodeznikov, Erhan S., Gridasova, Ekaterina A., Pogodaev, Anton, Kondrikov, Nikolay B., Shi, Yun, Tananaev, Ivan G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10489041/
https://www.ncbi.nlm.nih.gov/pubmed/37687531
http://dx.doi.org/10.3390/ma16175838
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author Belov, Anton A.
Shichalin, Oleg O.
Papynov, Evgeniy K.
Buravlev, Igor Yu.
Portnyagin, Arseniy S.
Azon, Semen A.
Fedorets, Alexander N.
Vornovskikh, Anastasia A.
Kolodeznikov, Erhan S.
Gridasova, Ekaterina A.
Pogodaev, Anton
Kondrikov, Nikolay B.
Shi, Yun
Tananaev, Ivan G.
author_facet Belov, Anton A.
Shichalin, Oleg O.
Papynov, Evgeniy K.
Buravlev, Igor Yu.
Portnyagin, Arseniy S.
Azon, Semen A.
Fedorets, Alexander N.
Vornovskikh, Anastasia A.
Kolodeznikov, Erhan S.
Gridasova, Ekaterina A.
Pogodaev, Anton
Kondrikov, Nikolay B.
Shi, Yun
Tananaev, Ivan G.
author_sort Belov, Anton A.
collection PubMed
description This paper reports a method for the fabrication of mineral-like SrMoO(4) ceramics with a powellite structure, which is promising for the immobilization of the high-energy (90)Sr radioisotope. The reported method is based on the solid-phase “in situ” interaction between SrO and MoO(3) oxides initiated under spark plasma sintering (SPS) conditions. Dilatometry, XRD, SEM, and EDX methods were used to investigate the consolidation dynamics, phase formation, and structural changes in the reactive powder blend and sintered ceramics. The temperature conditions for SrMoO(4) formation under SPS were determined, yielding ceramics with a relative density of 84.0–96.3%, Vickers microhardness of 157–295 HV, and compressive strength of 54–331 MPa. Ceramic samples demonstrate a low Sr leaching rate of 10(−6) g/cm(2)·day, indicating a rather high hydrolytic stability and meeting the requirements of GOST R 50926-96 imposed on solid radioactive wastes. The results presented here show a wide range of prospects for the application of ceramic matrixes with the mineral-like composition studied here to radioactive waste processing and radioisotope manufacturing.
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spelling pubmed-104890412023-09-09 An SPS-RS Technique for the Fabrication of SrMoO(4) Powellite Mineral-like Ceramics for (90)Sr Immobilization Belov, Anton A. Shichalin, Oleg O. Papynov, Evgeniy K. Buravlev, Igor Yu. Portnyagin, Arseniy S. Azon, Semen A. Fedorets, Alexander N. Vornovskikh, Anastasia A. Kolodeznikov, Erhan S. Gridasova, Ekaterina A. Pogodaev, Anton Kondrikov, Nikolay B. Shi, Yun Tananaev, Ivan G. Materials (Basel) Article This paper reports a method for the fabrication of mineral-like SrMoO(4) ceramics with a powellite structure, which is promising for the immobilization of the high-energy (90)Sr radioisotope. The reported method is based on the solid-phase “in situ” interaction between SrO and MoO(3) oxides initiated under spark plasma sintering (SPS) conditions. Dilatometry, XRD, SEM, and EDX methods were used to investigate the consolidation dynamics, phase formation, and structural changes in the reactive powder blend and sintered ceramics. The temperature conditions for SrMoO(4) formation under SPS were determined, yielding ceramics with a relative density of 84.0–96.3%, Vickers microhardness of 157–295 HV, and compressive strength of 54–331 MPa. Ceramic samples demonstrate a low Sr leaching rate of 10(−6) g/cm(2)·day, indicating a rather high hydrolytic stability and meeting the requirements of GOST R 50926-96 imposed on solid radioactive wastes. The results presented here show a wide range of prospects for the application of ceramic matrixes with the mineral-like composition studied here to radioactive waste processing and radioisotope manufacturing. MDPI 2023-08-25 /pmc/articles/PMC10489041/ /pubmed/37687531 http://dx.doi.org/10.3390/ma16175838 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Belov, Anton A.
Shichalin, Oleg O.
Papynov, Evgeniy K.
Buravlev, Igor Yu.
Portnyagin, Arseniy S.
Azon, Semen A.
Fedorets, Alexander N.
Vornovskikh, Anastasia A.
Kolodeznikov, Erhan S.
Gridasova, Ekaterina A.
Pogodaev, Anton
Kondrikov, Nikolay B.
Shi, Yun
Tananaev, Ivan G.
An SPS-RS Technique for the Fabrication of SrMoO(4) Powellite Mineral-like Ceramics for (90)Sr Immobilization
title An SPS-RS Technique for the Fabrication of SrMoO(4) Powellite Mineral-like Ceramics for (90)Sr Immobilization
title_full An SPS-RS Technique for the Fabrication of SrMoO(4) Powellite Mineral-like Ceramics for (90)Sr Immobilization
title_fullStr An SPS-RS Technique for the Fabrication of SrMoO(4) Powellite Mineral-like Ceramics for (90)Sr Immobilization
title_full_unstemmed An SPS-RS Technique for the Fabrication of SrMoO(4) Powellite Mineral-like Ceramics for (90)Sr Immobilization
title_short An SPS-RS Technique for the Fabrication of SrMoO(4) Powellite Mineral-like Ceramics for (90)Sr Immobilization
title_sort sps-rs technique for the fabrication of srmoo(4) powellite mineral-like ceramics for (90)sr immobilization
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10489041/
https://www.ncbi.nlm.nih.gov/pubmed/37687531
http://dx.doi.org/10.3390/ma16175838
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