50 research outputs found
Evaluación de la corrosión de una aleación Pb-Ca-Sn por medio de técnicas electroquímicas
Evaluation of corrosion of Pb-Ca-Sn alloy by electrochemical techniques Avaliação da corrosão na liga Pb-Ca-Sn através de técnicas eletroquímicas Resumen En el presente trabajo, se evaluó la influencia del aumento de la temperatura en la velocidad de corrosión de la aleación Pb-Ca-Sn, componente primario de la rejilla negativa de una batería de arranque de automóvil, mediante técnicas electroquímicas: RPL, curvas potenciodinámicas, Tafel y EIS. Mediante microscopia óptica, SEM-EDS y DRX, se caracterizaron los compuestos formados sobre las rejillas durante los ensayos. La capa pasiva formada sobre las rejillas empleadas como cátodo y ánodo en baterías de plomo-ácido, permite el anclaje en la interfase rejilla-PAM (Material Activo Positivo) o NAM (Material Activo Negativo). Un mal proceso de formación de esta capa ocasiona el desprendimiento del PAM/NAM, conduciendo a fallas prematuras. La temperatura influye directamente sobre la cinética de degradación y la termodinámica de las reacciones redox que tienen lugar en el sistema rejilla-PAM/ NAM. Un incremento en la temperatura produce variaciones en la composición química, favoreciendo la formación de mezclas de óxidos y sulfatos en la interfase rejilla-PAM/NAM, cuyo volumen y estructura porosa la hace susceptible a fallas por esfuerzos triaxiales sobre la interfase, produciendo grietas y el desprendimiento del PAM o NAM y disminuyendo el tiempo de vida útil de la batería. Se encontró que las aleaciones Pb-Ca-Sn en solución 0,5M de H2SO4 forman un sistema multicapa comprobándose con base en los resultados obtenidos de EIS y SEM, con los cuales se detectó una capa compacta de PbO2 y una capa porosa de PbSO4. Al incrementar la temperatura se encontró una capa más porosa de PbSO4, lo cual implica una mayor cinética de corrosión de la aleación Pb-Ca-Sn. Palabras clave: batería plomo-ácido, material activo negativo, corrosión, técnicas electroquímicas. Abstract In this paper, the influence of increasing temperature on the corrosion rate of Pb-Ca-Sn alloy, the primary component of the negative grid of a starter battery car, was evaluated by electrochemical techniques: RPL, potentiodynamic curves, Tafel and EIS. By optical microscopy, SEM -EDS and XRD, the compounds formed on the grids were characterized during testing. The passive layer formed on the grids used as cathode and anode in lead-acid batteries allows the anchor in grid-PAM interface (Positive Active Material) or NAM (Negative Active Material). A bad process of to form this layer produces the detachment of PAM/NAM, leading to premature failure. The temperature directly affects the kinetics and thermodynamics degradation of the redox reactions taking place in the system grid-PAM/NAM. An increase in temperature causes variations in the chemical composition, favoring the formation of oxides and sulphates mixtures in grid-PAM/NAM interface, its volume and porous structure make it susceptible to failure by tri-axial stress on the interface, producing cracks and detachment of PAM or NAM and reducing the lifetime of the battery. It was found that the Pb-Ca-Sn alloys in 0.5M H2SO4 solution form a multilayer system, verified by the results of EIS and SEM, in which a compact layer of PbO2 and porous layer by PbSO4 . Porous layer of PbSO4 was obtained, when the temperature was increased implying greater corrosion kinetics ofPb-Ca-Sn alloy were detected. Keywords:lead-acid battery, negative active material, corrosion, electrochemical techniques. Resumo Neste trabalho, a influência do aumento da temperatura sobre a taxa de corrosão da liga de Pb-Ca-Sn, o principal componente da grade negativa da bateria de arranque de um carro, foi avaliada por técnicas eletroquímicas: RPL, curvas potenciodinâmica, Tafel e EIS. Por microscopia óptica, SEM- EDS e XRD, os compostos formados nas grades foram caracterizados durante o teste. A camada passiva formada nas grades usadas como cátodo e o ânodo em baterias de chumbo-ácido, permite a âncora na interface de rede-PAM (Material Positivo Ativo) ou NAM (negativo material ativo). Um mau processo de formar esta camada leva ao desenvolvimento de PAM/NAM,conduzindo a falhas prematuras. A temperatura afeta diretamente a cinética de degradação e termodinâmica das reações redox que ocorrem no grade- PAM/NAM sistema. Um aumento da temperatura faz com que as variações na composição química, favorecendo a formação de misturas de óxidos e sulfatos na interface grade-PAM/NAM, o volume e estrutura porosa tornam susceptíveis de falha por stress triaxial na interface, produzindo fissuras e desprendimento do PAM ou NAM e reduzindo o tempo de vida da bateria. Verificou-se que as ligas de Pb-Ca-Sn em solução 0,5M de H2SO4 formar um sistema de múltiplas camadas , a verificação com base nos resultados da EIA e SEM , com as quais foi detectada uma camada compacta de PbO2 e camada porosa PbSO4 . Ao aumentar a temperatura de uma camada porosa de PbSO4 foi encontrado, o que implica maiores cinética de corrosão de liga de Pb-Ca-Sn . Palavras-chave:bateria de chumbo-ácido, material ativo negativo, corrosão, técnicas eletroquímicas. Estupiñán Duran HA, Peña Ballesteros DY, Quijano EA, Peñate RA. Evaluación de la corrosión de una aleación Pb-Ca-Sn por medio de técnicas electroquímicas. rev.ion. 2014;27(1):71-80
Experience With Bexarotene to Treat Cutaneous T-Cell Lymphomas: A Study of the Spanish Working Group of Cutaneous Lymphomas
Background and objectives: Bexarotene has been approved to treat advanced stage cutaneous T -cell lymphomas (CTCL) since 1999. However, very few data have been published on its long-term safety and efficacy profile. The aim of this study is to determine the tolerability to bexarotene and outcomes by collecting the 2nd largest case series to date on its long-term use vs CTCL. Material and method: This was a multicenter retrospective review of 216 patients with mycosis fungoides (174), or S & eacute;zary syndrome (42) on a 10 -year course of bexarotene alone or in combination with other therapies at 19 tertiary referral teaching hospitals. Results: A total of 133 men (62%) and 83 women (38%) were included, with a mean age of 63.5 year (27 - 95). A total of 45% were on bexarotene monotherapy for the entire study period, 22% started on bexarotene but eventually received an additional therapy, 13% were on another treatment but eventually received bexarotene while the remaining 20% received a combination therapy since the beginning. The median course of treatment was 20.78 months (1 - 114); and the overall response rate, 70.3%. Complete and partial response rates were achieved in 26% and 45% of the patients, respectively. Treatment was well tolerated, being the most common toxicities hypertriglyceridemia (79%), hypercholesterolemia (71%), and hypothyroidism (52%). No treatment -related grade 5 adverse events were reported. Conclusions: Our study confirms bexarotene is a safe and effective therapy for the long-term treatment of CTCL. (c) 2024 AEDV. Published by Elsevier Espana, S.L.U. This is an open access article under the CC BY -NC -ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)
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Evaluación de la corrosión de una aleación Pb-Ca-Sn por medio de técnicas electroquímicas
Evaluation of corrosion of Pb-Ca-Sn alloy by electrochemical techniques Avaliação da corrosão na liga Pb-Ca-Sn através de técnicas eletroquímicas Resumen En el presente trabajo, se evaluó la influencia del aumento de la temperatura en la velocidad de corrosión de la aleación Pb-Ca-Sn, componente primario de la rejilla negativa de una batería de arranque de automóvil, mediante técnicas electroquímicas: RPL, curvas potenciodinámicas, Tafel y EIS. Mediante microscopia óptica, SEM-EDS y DRX, se caracterizaron los compuestos formados sobre las rejillas durante los ensayos. La capa pasiva formada sobre las rejillas empleadas como cátodo y ánodo en baterías de plomo-ácido, permite el anclaje en la interfase rejilla-PAM (Material Activo Positivo) o NAM (Material Activo Negativo). Un mal proceso de formación de esta capa ocasiona el desprendimiento del PAM/NAM, conduciendo a fallas prematuras. La temperatura influye directamente sobre la cinética de degradación y la termodinámica de las reacciones redox que tienen lugar en el sistema rejilla-PAM/ NAM. Un incremento en la temperatura produce variaciones en la composición química, favoreciendo la formación de mezclas de óxidos y sulfatos en la interfase rejilla-PAM/NAM, cuyo volumen y estructura porosa la hace susceptible a fallas por esfuerzos triaxiales sobre la interfase, produciendo grietas y el desprendimiento del PAM o NAM y disminuyendo el tiempo de vida útil de la batería. Se encontró que las aleaciones Pb-Ca-Sn en solución 0,5M de H2SO4 forman un sistema multicapa comprobándose con base en los resultados obtenidos de EIS y SEM, con los cuales se detectó una capa compacta de PbO2 y una capa porosa de PbSO4. Al incrementar la temperatura se encontró una capa más porosa de PbSO4, lo cual implica una mayor cinética de corrosión de la aleación Pb-Ca-Sn. Palabras clave: batería plomo-ácido, material activo negativo, corrosión, técnicas electroquímicas. Abstract In this paper, the influence of increasing temperature on the corrosion rate of Pb-Ca-Sn alloy, the primary component of the negative grid of a starter battery car, was evaluated by electrochemical techniques: RPL, potentiodynamic curves, Tafel and EIS. By optical microscopy, SEM -EDS and XRD, the compounds formed on the grids were characterized during testing. The passive layer formed on the grids used as cathode and anode in lead-acid batteries allows the anchor in grid-PAM interface (Positive Active Material) or NAM (Negative Active Material). A bad process of to form this layer produces the detachment of PAM/NAM, leading to premature failure. The temperature directly affects the kinetics and thermodynamics degradation of the redox reactions taking place in the system grid-PAM/NAM. An increase in temperature causes variations in the chemical composition, favoring the formation of oxides and sulphates mixtures in grid-PAM/NAM interface, its volume and porous structure make it susceptible to failure by tri-axial stress on the interface, producing cracks and detachment of PAM or NAM and reducing the lifetime of the battery. It was found that the Pb-Ca-Sn alloys in 0.5M H2SO4 solution form a multilayer system, verified by the results of EIS and SEM, in which a compact layer of PbO2 and porous layer by PbSO4 . Porous layer of PbSO4 was obtained, when the temperature was increased implying greater corrosion kinetics ofPb-Ca-Sn alloy were detected. Keywords:lead-acid battery, negative active material, corrosion, electrochemical techniques. Resumo Neste trabalho, a influência do aumento da temperatura sobre a taxa de corrosão da liga de Pb-Ca-Sn, o principal componente da grade negativa da bateria de arranque de um carro, foi avaliada por técnicas eletroquímicas: RPL, curvas potenciodinâmica, Tafel e EIS. Por microscopia óptica, SEM- EDS e XRD, os compostos formados nas grades foram caracterizados durante o teste. A camada passiva formada nas grades usadas como cátodo e o ânodo em baterias de chumbo-ácido, permite a âncora na interface de rede-PAM (Material Positivo Ativo) ou NAM (negativo material ativo). Um mau processo de formar esta camada leva ao desenvolvimento de PAM/NAM,conduzindo a falhas prematuras. A temperatura afeta diretamente a cinética de degradação e termodinâmica das reações redox que ocorrem no grade- PAM/NAM sistema. Um aumento da temperatura faz com que as variações na composição química, favorecendo a formação de misturas de óxidos e sulfatos na interface grade-PAM/NAM, o volume e estrutura porosa tornam susceptíveis de falha por stress triaxial na interface, produzindo fissuras e desprendimento do PAM ou NAM e reduzindo o tempo de vida da bateria. Verificou-se que as ligas de Pb-Ca-Sn em solução 0,5M de H2SO4 formar um sistema de múltiplas camadas , a verificação com base nos resultados da EIA e SEM , com as quais foi detectada uma camada compacta de PbO2 e camada porosa PbSO4 . Ao aumentar a temperatura de uma camada porosa de PbSO4 foi encontrado, o que implica maiores cinética de corrosão de liga de Pb-Ca-Sn . Palavras-chave:bateria de chumbo-ácido, material ativo negativo, corrosão, técnicas eletroquímicas. Estupiñán Duran HA, Peña Ballesteros DY, Quijano EA, Peñate RA. Evaluación de la corrosión de una aleación Pb-Ca-Sn por medio de técnicas electroquímicas. rev.ion. 2014;27(1):71-80