Model for dissolution of irradiated metal oxides: Reactivity and structure

The influence of the opposite effects (generation and annealing of crystal defects) on the dissolution of reactor irradiated metal oxides was studied. Kinetic parameters were calculated, using a model proposed for the dissolution process, and the relation between the structure of the irradiated oxid...

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Autores principales: Dos Santos Afonso, M., Di Risio, D.R.
Formato: JOUR
Materias:
Chromium compounds
Dissolution
Gamma rays
Manganese compounds
Mathematical models
Chromium oxide
Manganese dioxide
Radiation chemistry
chromium derivative
manganese dioxide
metal oxide
article
chemical analysis
chemical reaction
chemical structure
dissolution
gamma radiation
irradiation
kinetics
model
nuclear reactor
oxidation
radiation dose
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_0969806X_v58_n3_p261_DosSantosAfonso
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_0969806X_v58_n3_p261_DosSantosAfonso
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spelling todo:paper_0969806X_v58_n3_p261_DosSantosAfonso2023-10-03T15:55:31Z Model for dissolution of irradiated metal oxides: Reactivity and structure Dos Santos Afonso, M. Di Risio, D.R. Chromium compounds Dissolution Gamma rays Manganese compounds Mathematical models Chromium oxide Manganese dioxide Radiation chemistry chromium derivative manganese dioxide metal oxide article chemical analysis chemical reaction chemical structure dissolution gamma radiation irradiation kinetics model nuclear reactor oxidation radiation dose The influence of the opposite effects (generation and annealing of crystal defects) on the dissolution of reactor irradiated metal oxides was studied. Kinetic parameters were calculated, using a model proposed for the dissolution process, and the relation between the structure of the irradiated oxides and their behavior upon dissolution was discussed. (C) 2000 Elsevier Science Ltd. The influence of the opposite effects on the dissolution of reactor irradiated metal oxides was studied. The kinetic parameters were calculated, using a model proposed for the dissolution process, and the relation between the structure of the irradiated oxides and their behavior upon dissolution was discussed. The results obtained for the oxidative dissolution of Cr2O3 and for the reductive dissolution of MnO2 were reported. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_0969806X_v58_n3_p261_DosSantosAfonso
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Chromium compounds
Dissolution
Gamma rays
Manganese compounds
Mathematical models
Chromium oxide
Manganese dioxide
Radiation chemistry
chromium derivative
manganese dioxide
metal oxide
article
chemical analysis
chemical reaction
chemical structure
dissolution
gamma radiation
irradiation
kinetics
model
nuclear reactor
oxidation
radiation dose
spellingShingle Chromium compounds
Dissolution
Gamma rays
Manganese compounds
Mathematical models
Chromium oxide
Manganese dioxide
Radiation chemistry
chromium derivative
manganese dioxide
metal oxide
article
chemical analysis
chemical reaction
chemical structure
dissolution
gamma radiation
irradiation
kinetics
model
nuclear reactor
oxidation
radiation dose
Dos Santos Afonso, M.
Di Risio, D.R.
Model for dissolution of irradiated metal oxides: Reactivity and structure
topic_facet Chromium compounds
Dissolution
Gamma rays
Manganese compounds
Mathematical models
Chromium oxide
Manganese dioxide
Radiation chemistry
chromium derivative
manganese dioxide
metal oxide
article
chemical analysis
chemical reaction
chemical structure
dissolution
gamma radiation
irradiation
kinetics
model
nuclear reactor
oxidation
radiation dose
description The influence of the opposite effects (generation and annealing of crystal defects) on the dissolution of reactor irradiated metal oxides was studied. Kinetic parameters were calculated, using a model proposed for the dissolution process, and the relation between the structure of the irradiated oxides and their behavior upon dissolution was discussed. (C) 2000 Elsevier Science Ltd. The influence of the opposite effects on the dissolution of reactor irradiated metal oxides was studied. The kinetic parameters were calculated, using a model proposed for the dissolution process, and the relation between the structure of the irradiated oxides and their behavior upon dissolution was discussed. The results obtained for the oxidative dissolution of Cr2O3 and for the reductive dissolution of MnO2 were reported.
format JOUR
author Dos Santos Afonso, M.
Di Risio, D.R.
author_facet Dos Santos Afonso, M.
Di Risio, D.R.
author_sort Dos Santos Afonso, M.
title Model for dissolution of irradiated metal oxides: Reactivity and structure
title_short Model for dissolution of irradiated metal oxides: Reactivity and structure
title_full Model for dissolution of irradiated metal oxides: Reactivity and structure
title_fullStr Model for dissolution of irradiated metal oxides: Reactivity and structure
title_full_unstemmed Model for dissolution of irradiated metal oxides: Reactivity and structure
title_sort model for dissolution of irradiated metal oxides: reactivity and structure
url http://hdl.handle.net/20.500.12110/paper_0969806X_v58_n3_p261_DosSantosAfonso
work_keys_str_mv AT dossantosafonsom modelfordissolutionofirradiatedmetaloxidesreactivityandstructure
AT dirisiodr modelfordissolutionofirradiatedmetaloxidesreactivityandstructure
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