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1. Influence of the Anodization Process on Zamak 5 Corrosion Resistance

Author

Ana Carolina Viero Bianchin, Sandra Raquel Kunst, Luã Tainachi Mueller, Jane Zoppas Ferreira, Fernando Dal Pont Morisso, Carlos Leonardo Pandolfo Carone, and Cláudia Trindade Oliveira

Subjects
Zinc alloys, Zamak, Anodizing, Oxalic acid, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Abstract Squeeze casting is the most industrially advantageous process for producing zamak 5 parts. However, this process generates porosity defects in parts, compromising their corrosion resistance. Therefore, this work aims to minimize defects and improve zamak 5 corrosive performance through the anodizing process. For this purpose, zamak 5 was anodized in 300 mol.m-3 oxalic acid and analyzed by ATR-FTIR, SEM, wettability and EIS techniques. The anodizing process promoted the formation of oxalate and oxide layers of Zn and Al, thereby reducing porosity defects. Although the anodized layer has fragile behavior, being porous and permeable, the immersion time of anodized zamak 5 in NaCl forms corrosion products in the alloy that exhibit better protection.

Published
2020
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3. Titanium Anodization in Psidium Guajava

Author

David de Oliveira Cerveira, Sandra Raquel Kunst, Luã Tainachi Mueller, Fernando Dal Pont Morisso, Ana Luiza Ziulkoski, Roberto Cauduro, and Cláudia Trindade Oliveira

Subjects
Anodização, Titanium, Implantes, Anodizing, Psidium guajava, Corrosion, Titanio, Corrosão, Corrosión, General Earth and Planetary Sciences, Implants, Anodizado, Titânio, General Environmental Science
Abstract

Psidium guajava, commonly known as 'guava', belongs to the Myrtaceae family and is an alternative to the use of traditional methods of corrosion inhibition. The aim of this study is to anodize titanium in an environmentally friendly Psidium guajava electrolyte in order to improve its anti-corrosion performance. For this purpose, samples of CP (commercially pure) titanium grade 2 were anodized in plant extract based on Psidium guajava, with transient variations of current density (1 and 0.1 mA/cm²) and time (5, 30 and 60 min). Samples were characterized in terms of morphology by SEM (Scanning Electron Microscopy) analysis. The hydrophobicity of oxides was evaluated by the sessile drop method. Anodized samples were analyzed for colorimetry by the CIE L*a*b* method and the electrolyte based on Psidium guajava was analyzed by UV-Vis and cyclic voltammetry, in order to understand the compounds and their behavior in the anodizing process. From the obtained results, the oxides generated through anodization at current density of 0.1 mA/cm² were the ones that presented the best performance. The results obtained at 5 and 30 minutes of anodizing showed very similar results and greater reproducibility compared to the others analyzed, which showed the formation of a barrier-type oxide layer in the samples. In the Psidium guajava electrolyte, it was evidenced the presence of phenolic groups in its composition, which is believed to influence the process of formation of the oxide layer in the anodization process. Psidium guajava, comúnmente conocida como 'guayaba', pertenece a la familia de las mirtáceas y es una alternativa al uso de los métodos tradicionales de inhibición de la corrosión. El objetivo de este estudio es anodizar titanio en un electrolito ecológico de Psidium guajava para mejorar su rendimiento anticorrosivo. Para ello, se anodizaron muestras de titanio grado 2 CP (comercialmente puro) en extracto vegetal a base de Psidium guajava, con variaciones transitorias de densidad de corriente (1 y 0,1 mA/cm²) y tiempo (5, 30 y 60 min). Las muestras se caracterizaron en términos de morfología por análisis MEB (Microscopía electrónica de barrido). La hidrofobicidad de los óxidos se evaluó por el método de gota sésil. Las muestras anodizadas fueron analizadas por colorimetría por el método CIE L*a*b* y el electrolito a base de Psidium guajava fue analizado por UV-Vis y voltamperometría cíclica, con el fin de entender los compuestos y su comportamiento en el proceso de anodizado. De los resultados obtenidos, los óxidos generados por anodizado a una densidad de corriente de 0,1 mA/cm² presentaron el mejor desempeño. Los resultados obtenidos a los 5 y 30 minutos de anodizado mostraron resultados muy similares y mayor reproducibilidad en comparación con los demás analizados, lo que mostró la formación de una capa de óxido de tipo barrera en las muestras. En el electrolito de Psidium guajava se evidenció la presencia de grupos fenólicos en su composición, los cuales se cree influyen en el proceso de formación de la capa de óxido en el proceso de anodización. A Psidium guajava, comumente conhecida como ‘goiaba’, pertence à família das Myrtaceae e é uma alternativa ao uso dos métodos tradicionais de inibição de corrosão. O objetivo deste estudo é anodizar titânio em um eletrólito ambientalmente correto de Psidium guajava a fim de melhorar seu desempenho anticorrosivo. Para tanto, amostras de titânio CP (comercialmente puro) grau 2 foram anodizadas em extrato vegetal a base de Psidium guajava, com variação dos transientes de densidade de corrente (1 e 0,1 mA/cm²) e tempo (5, 30 e 60 min). As amostras foram caracterizadas quanto à morfologia por análises em MEV (Microscopia Eletrônica de Varredura). A hidrofobicidade dos óxidos foi avaliada pelo método da gota séssil. As amostras anodizadas foram analisadas em relação à colorimetria pelo método CIE L*a*b* e o eletrólito a base de Psidium guajava foi analisado por UV-Vis e por voltametria cíclica, com a finalidade de entender os compostos e seus comportamentos no processo de anodização. Dos resultados obtidos, os óxidos gerados por anodização na densidade de corrente de 0,1 mA/cm² foram os que apresentaram melhor desempenho. Os resultados obtidos em 5 e 30 minutos de anodização apresentaram resultados muito semelhantes e maior reprodutibilidade em comparação aos demais analisados e que evidenciou a formação de camada óxida do tipo barreira nas amostras. No eletrólito de Psidium guajava, foi evidenciado a presença de grupos fenólicos em sua composição, o que se acredita que influenciam no processo de formação da camada óxida no processo de anodização.

Published
2022

4. Model of anodized layers formation in Zn–Al (Zamak) aiming to corrosion resistance

Author

I.L. Mueller, Luã Tainachi Mueller, Sandra Raquel Kunst, Carlos Leonardo Pandolfo Carone, Fernando Dal Pont Morisso, Joseane de Andrade Santana, Ana Carolina Viero Bianchin, Tiago Moreno Volkmer, Jane Zoppas Ferreira, and Cláudia Trindade Oliveira

Subjects
Materials science, Scanning electron microscope, Oxide, Energy-dispersive X-ray spectroscopy, chemistry.chemical_element, 02 engineering and technology, Zinc, Anodizing, 01 natural sciences, Corrosion, Biomaterials, chemistry.chemical_compound, Zinc alloys, Oxalic acid, 0103 physical sciences, Zamak, 010302 applied physics, Mining engineering. Metallurgy, Metals and Alloys, TN1-997, 021001 nanoscience & nanotechnology, Surfaces, Coatings and Films, Dielectric spectroscopy, Chemical engineering, chemistry, Ceramics and Composites, 0210 nano-technology
Abstract

Zamak are zinc-aluminum alloys that, when processed by squeeze casting (injection), presents porosity defects on its surface, compromising its corrosion resistance. Thus, with the purpose to minimize these defects and increase corrosion resistance of Zamak, this work proposes formation of layers by anodizing, containing oxalates and oxides based on Zn and Al. Anodizing parameters used were 100 V, 10 mA.cm−2, room temperature, oxalic acid 0.3 mol.L−1 as electrolyte and 5 or 60 min. Samples were analyzed by infrared spectroscopy (ATR-FTIR), x-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), and electrochemical impedance spectroscopy (EIS). The model suggested in this work shows that Zamak anodization occurs in three stages. In the first stage, zinc oxalate is formed as crystallites. In the second stage, zinc oxalate is solubilized and the formation of Al2O3 and ZnO (with smooth aspect) takes place. In the third stage, increasing thickness of the oxide layers promotes cracks on the anodized surface. Anodization of Zamak promotes better performance against corrosion, when compared to non-anodized samples, and this effect is attributed to the barrier effect of the oxides and the formation of corrosion products that fill the cracks generated during anodizing.

Published
2021

5. Influence of the Anodization Process on Zamak 5 Corrosion Resistance

Author

Carlos Leonardo Pandolfo Carone, Luã Tainachi Mueller, Fernando Dal Pont Morisso, Jane Zoppas Ferreira, Ana Carolina Viero Bianchin, Sandra Raquel Kunst, and Cláudia Trindade Oliveira

Subjects
Materials science, Oxalic acid, Alloy, Oxide, 02 engineering and technology, engineering.material, Anodizing, 010402 general chemistry, 01 natural sciences, Corrosion, chemistry.chemical_compound, Zinc alloys, Zamak, General Materials Science, Porosity, Materials of engineering and construction. Mechanics of materials, Mechanical Engineering, Metallurgy, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, chemistry, Mechanics of Materials, engineering, TA401-492, 0210 nano-technology, Layer (electronics)
Abstract

Squeeze casting is the most industrially advantageous process for producing zamak 5 parts. However, this process generates porosity defects in parts, compromising their corrosion resistance. Therefore, this work aims to minimize defects and improve zamak 5 corrosive performance through the anodizing process. For this purpose, zamak 5 was anodized in 300 mol.m-3 oxalic acid and analyzed by ATR-FTIR, SEM, wettability and EIS techniques. The anodizing process promoted the formation of oxalate and oxide layers of Zn and Al, thereby reducing porosity defects. Although the anodized layer has fragile behavior, being porous and permeable, the immersion time of anodized zamak 5 in NaCl forms corrosion products in the alloy that exhibit better protection.

Published
2020

6. Analysis of the effects of alumina (Al2 O3) addition in micrastructure and hardness in Zamac 5 by gravity

Author

Leonardo Felix Scheffel, Felipe Baptista Dieter, Sandra Raquel Kunst, Felipe Dalla Vecchia, Fernando Dal Pont Morisso, Cláudia Trindade Oliveira, Luã Tainachi Mueller, Mariane Fernandes, Luciane Taís Fuhr, Eduardo Luis Schneider, and Carlos Leonardo Pandolfo Carone

Subjects
Alumina, Zamak, Ligas metálicas, Aluminum oxide, Ligas de alumínio, Fundição, Casting
Abstract

O objetivo deste trabalho foi verificar se é possível a incorporação Al2 O3 à liga de Zamac por meio do processo de fundição por gravidade. Para isto amostras de Zamac foram fundidas em triplicata, sem e com adições de 0,1%, 0,5% e 7% em massa de óxido de alumínio. Análises ao Microscópio Eletrônico de Varredura (MEV), medição dos tamanhos de grão e ensaio de dureza das amostras fundidas foram realizados para validação da incorporação da alumina à liga. Após analisar os resultados, verificou-se que a alumina foi satisfatoriamente incorporada à liga. No entanto, a incorporação de Al2 O3 foi baixa e em forma de clusters. Ainda foi verificado que a adição de alumina não causou alterações na microestrutura da nova liga, entretanto, quando comparada com a amostra sem adição de alumina, foi constatado um aumento de 4% na dureza da amostra fundida com 7% de Al2 O3. The objective of this work was to verify if it is possible to incorporate aluminum oxide into the Zamak alloy through the die casting process. For this purpose Zamak samples were melted in triplicates, without and with additions of 0.1%, 0.5% and 7% by mass of aluminum oxide. Scanning Electronic Microscopy (SEM) analysis, grain size measurements as well as hardness tests were performed in order to validate the incorporation of the alumina to the Zamak alloy. After analyzing the results, it was verified that the alumina was satisfactorily incorporated into the alloy. Besides that, there was a low oxide incorporation, and in the form of clusters. It was also verified that the alumina added did not cause changes in the new alloy’s microstructure, however, when compared with the pure sample, an increase of 4% in the hardness of sample casted with 7% of Al2 O3 was found.

Published
2020

7. Superficial treatment by anodization in order to obtain titanium oxide nanotubes applicable in implantology

Author

Thaís Francine Graef, Sandra Raquel Kunst, Luciane Taís Fuhr, Jane Zoppas Ferreira, Luã Tainachi Mueller, Carlos Leonardo Pandolfo Carone, Fernando Dal Pont Morisso, and Cláudia Trindade Oliveira

Subjects
Materials science, Scanning electron microscope, General Physics and Astronomy, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Osseointegration, chemistry.chemical_compound, Implants, General Materials Science, Composite material, Titanium, Nanotubes, Anodizing, Biomaterial, General Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Titanium oxide, Field electron emission, chemistry, Titanium dioxide, Anodization, 0210 nano-technology
Abstract

Titanium and its alloys are the most popular metals applied on end osseous implants manufacturing. Commercially pure titanium (Ti c.p.) has been successfully used as a biomaterial because of its mechanical and chemical properties, excellent corrosion resistance and biocompatibility. In order to improve and accelerate the osseointegration process after implantation, superficial treatments are performed aiming properties that stimulate the growth of the newly-formed bone. In this work, self organized titanium dioxide (TiO2) nanotubes were obtained by anodic oxidation on Ti c.p. (grade 2). Also, it has been shown that the process is industrially reproducible for this purpose. As parameters for the anodizing process, it was concluded that the optimal electrolyte was H3PO4 solution + 0.15% HF under potentiostatic mode for 30 minutes. Potentials of 1, 5, 10, 15 and 20 V were tested in order to verify the best conditions to obtain nanotubes. In this case, potential was set at 10V. The morphology of the samples was characterized by Scanning Electron Microscopy (SEM), Scanning Electron Microscopy with Field Emission (SEM-FEG) and Atomic Force Microscopy (AFM). The results showed the nanotubes formation throughout the titanium samples surface. In accordance to the obtained roughness, it was observed that the formed nanotubes film is thin, however, the literature indicates that the film thickness is not relevant on the performance of nanostructures as optimizers of the osseointegration process, unlike the nanotubes morphology and diameter. In the wettability analysis, the nanotubes behaved as hydrophilic. Therefore, it is possible to obtain TiO2 nanotubes for using in implants by a superficial treatment, allowing a better osseointegration quality. Keywords: Titanium, Nanotubes, Anodization, Implants, Osseointegration.

Published
2020

10. Influência do Nb contido em eletrólito a base de oxalato na anodização de alumínio em ácido oxálico

Author

Jane Zoppas Ferreira, Fernando Dal Pont Morisso, Luã Tainachi Mueller, Gleyson Silva Falavigna, Sandra Raquel Kunst, Cláudia Trindade Oliveira, and Joseane de Andrade Santana

Subjects
Physics, General Earth and Planetary Sciences, Humanities, General Environmental Science
Abstract

A liga AA7075-T6 é bastante utilizada em aviação devido as suas características de baixo peso e propriedades mecânicas. Para aumento da resistência à corrosão, esta liga geralmente recebe uma proteção por cladding e posterior anodização. O recobrimento por cladding, apesar de encarecer o custo da liga, é necessário, uma vez que possibilita que toda a superfície da liga seja anodizada. Tentativas de anodização em ligas AA7075-T6 sem cladding, mostraram que a região dos precipitados da liga não é anodizada, originando sítios catódicos e, portanto, acelerando a corrosão. Devido a isso, este trabalho propôs anodizações em eletrólitos diferentes visando o recobrimento dos precipitados da liga por anodização. Para tanto, amostras de alumínio AA7075-T6 foram anodizadas em 0,3 M Ácido Oxálico e 0,15 M Oxalato de Niobila com variação de processos. As amostras anodizadas foram avaliadas quanto aos transientes de anodização, morfologia, seção transversal e resistência à corrosão. Através dos transientes de anodização foi possível caracterizar que as amostras anodizadas em 0,3 M de Ácido Oxálico obtiveram uma carga de densidade maior que as amostras anodizadas em 0,15 M de Oxalato de Niobila. Todas as amostras apresentaram formação de pites e buracos na camada superficial do filme de óxido. Através de análises da seção transversal por microscopia eletrônica de varredura (MEV), foi possível verificar que as amostras não decapadas obtiveram um filme óxido de espessura superior as amostras que foram decapadas. No entanto, não foi possível afirmar que houve recobrimento dos precipitados.

Published
2021

12. MODIFICAÇÃO SUPERFICIAL EM ÓXIDO DE NIÓBIO PARA A PRODUÇÃO DE HIDROGÊNIO

Author

César Eduardo Schmitt, Ester Schmidt Rieder, Fernando Dal Pont Morisso, Cláudia Trindade Oliveira, Carlos Leonardo Pandolfo Carone, Luã Tainachi Mueller, Adriana Gomes da Rocha, and Sandra Raquel Kunst

Subjects
Chemistry, Photocatalysis, Context (language use), Cathodic polarization, General Medicine, Crystalline oxide, Nuclear chemistry
Abstract

RESUMO Na separacao fotocatalitica da agua podem ser utilizados semicondutores como catalisadores da reacao de desprendimento de hidrogenio, sendo que a atividade fotocatalitica do semicondutor depende da area superficial e de sua cristalinidade. Nesse contexto, o Nb 2 O 5 diferencia-se como catalisador, uma vez que seu intervalo de band gap situa-se entre os intervalos das reacoes de oxirreducao da agua e pode ser obtido na forma porosa e cristalina. Com isso, o objetivo deste trabalho e verificar a influencia da modificacao superficial de Nb 2 O 5 , obtido por anodizacao, para a producao de hidrogenio por meio de fotocatalise. Para tanto, amostras de niobio foram anodizadas em 0,3 M acido oxalico + HF, com densidade de corrente de 12,73 mA/cm 2 por 300 s, e analisadas morfologicamente, quanto a condutividade eletrica e por meio de curvas de polarizacao catodicas. Os resultados mostraram que a melhor condicao de modificacao superficial para catalisar a reacao de desprendimento de hidrogenio por fotocatalise foi da amostra anodizada ate ocorrencia de sparking , a qual apresentou caracteristicas de oxido cristalino. Palavras-chave: Anodizacao. Niobio. Fotocatalise. ABSTRACT In photocatalytic separation of water semiconductors can be used as catalysts of the hydrogen release reaction, and the photocatalytic activity of the semiconductor depends on its surface area and its crystallinity. In this context, Nb 2 O 5 differs as a catalyst, since its band gap is between the ranges of water redox reactions and can be obtained in porous and crystalline form. Thus, the objective of this work is to verify the influence of surface modification of Nb 2 O 5 , obtained by anodization, for hydrogen production through photocatalysis. For this purpose, niobium samples were anodized in 0.3 M oxalic acid + HF, with current density of 12.73 mA / cm 2 for 300 s, and analyzed morphologically for electrical conductivity and cathodic polarization curves. The results showed that the best surface modification condition to catalyze the hydrogen detachment reaction by photocatalysis was from the anodized sample until sparking, which presented crystalline oxide characteristics. Keywords: Anodizing. Niobium. Photocatalysis.

Published
2020

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