RAQUEL DE MORAES LOBO
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Resumo IPEN-doc 22178 Tensile properties characterization of an stainless steel tube for LBB evaluation2015 - PAES de ANDRADE, ARNALDO H.; CUNTO, GABRIEL G. de; LOBO, RAQUEL de M.; MONTEIRO, WALDEMAR A.Resumo IPEN-doc 22174 In-situ SEM observations of Co-Cr alloys under deformation2015 - LOBO, RAQUEL de M.; MORCELLI, APARECIDO E.; SOUZA NETO, DIOGENS C.; MONTEIRO, WALDEMAR A.; PAES de ANDRADE, ARNALDO H.Resumo IPEN-doc 16204 Obtaining pure praseodymium acetate to use in researches and development2010 - QUEIROZ, CARLOS A. da S.; ROCHA, SORAYA M.R. da; PEDREIRA, WALTER R.; SENEDA, JOSE A.; LOBO, RAQUEL M.; S. FILHO, WALTERThis paper presents a simple and economical procedure to obtain high purity praseodymium acetate. The raw material in the form of mixed rare earths carbonate comes from a industrial separation of rare earths, thorium and uranium in the brasilian monazite. It is used the tecnique of strong cation exchange resin, proper to water treatment, to the praseodymium's fractionation and it is achieved a purity of 99.9% in Pr6O11 and yield greater than or equal 60%, with the elution of rare earths by EDTA solution in pH controlled. The complex of EDTA-praseodymium is transformed in praseodymium oxide, subsequently the oxide is dissolved in acetic acid to obtain the praseodymium acetate. The molecular absorption spectrophotometry tecnique is used to monitoring the praseodymium content during the process and mass spectrometry to certification the purity of the praseodymium acetate. The typical praseodymium acetate obtained presents the followings contaminants in micrograms per gram: Sc(18.20±0.22); Y (20.20 ± 0.20); La (6.75 ± 0.81); Ce (26.10 ± 0.70); Nd (3.31 ± 0.63); Sm (18.30 ± 0.80); Eu (17.00 ± 0.90); Gd (19.40 ± 0.40); Tb (16.30 ± 0.50); Dy (16.90 ± 0.50), Ho(17.90 ± 0.10); Er (18.40 ± 0.70); Tm (16.90 ± 0.10); Yb (17.60 ± 0.60); Lu (17.70 ± 0.50). The high purity praseodymium acetate comes being applied, replacing the imported product, in research and development area on rare earth catalysts.Artigo IPEN-doc 15874 Novas ligas de zirconio para apliccao nuclear2010 - LOBO, R.M.; ANDRADE, A.H.P.Artigo IPEN-doc 15849 Obtencao experimental de acetato de praseodimio de alta pureza a partir de carbonatos mistos de terras raras2010 - QUEIROZ, C.A. da S.; ROCHA, S.M.R. da; PEDREIRA, W.R.; SENEDA, J.A.; LOBO, R.M.; FILHO, W.S.Artigo IPEN-doc 10517 Effect of coupon orientation on corrosion behavior of aluminium alloy coupons in the spent fuel storage section of the IEA-R1 research reactor2004 - CORREA, O.V.; LOBO, R.M.; FERNANDES, S.M.C.; MARCONDES, G.; RAMANATHAN, L.V.Artigo IPEN-doc 13255 Influencia do lantanio como dopante na estabilidade termica de aluminas2008 - ROCHA, S.M.R.; QUEIROZ, C.A.S.; LOBO, R.M.; VASCONCELLOS, M.E.; FORBICINI, C.A.L.G.; SENEDA, J.A.; PEDREIRA, W.R.Artigo IPEN-doc 08480 Precipitacao de particulas de segunda fase em zircaloy-42000 - LOBO, R.M.; PAES de ANDRADE, A.H.; TAKIISHI, H.; FERREIRA, N.A.M.Artigo IPEN-doc 07194 Transformacoes microestruturais no zircaloy-42000 - LOBO, R.M.; PAES de ANDRADE, A.H.Dissertação IPEN-doc 07978 Analise microestrutural do zircaloy-4 submetido a diferentes tratamentos termo - mecanicos2002 - LOBO, RAQUEL de M.