Naasson Matheus Pereira Balica scite author profile

Naasson Matheus Pereira Balica

2Publications

0Citation Statements Received

64Citation Statements Given

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Federal University of Piauí

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Comparative assessment of TiN thin films created by plasma deposition technique on the surface features of NiCr alloys for dental applications

et al. 2023

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Introduction: Surface treatment is an important technique to increase adhesion between implants and bones, improving its mechanical characteristics and consequently the patient's comfort. Objectives: Ni-Cr alloys were the object of study in this work, with the purpose of analyzing and evaluating the effect of thin films deposition of titanium nitride via plasma, on its surface and comparing with cathodic cage (CC) and hollow cathode (HC) methods, for dental applications. Methods: Eighteen samples were prepared and the experiment was conducted in two steps: the pre-sputtering (1h, 350 °C, gases: Ar and H) and sputtering (4h, 450 °C, gases: Ar, Ni, and H). To characterize and compare the samples with those of reference, the Scanning Electron Microscopy (SEM), X-Ray Diffraction (XRD), Vickers Microhardness and wettability tests were used. Results: The results presented by SEM showed that during the surface treatment using CC, voids were formed, and using HC, the samples showed a more homogenous behavior. In microhardness tests, using a 25gf load, it was possible to observe that the HC method allowed an increase of 87% when compared to the reference and treated samples. Significance: Lastly, it can be concluded that both methods are suitable for Ni-Cr alloy surface treatment, and the HC technique, a method already used by dental professionals, presents better results due to the formation of a thicker film layer.

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Zircônia pigmentada obtida pelo método Pechini para aplicações odontológicas

et al. 2020

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RESUMO A introdução da zircônia (ZrO2) como material odontológico representa um grande avanço quando comparado aos demais materiais tradicionalmente utilizados para esta finalidade. Este material destaca-se, devido às suas ótimas propriedades tais como resistência mecânica e biocompatibilidade. No entanto, existem limitações quanto a sua coloração branca e alta opacidade, não sendo possível mimetizar as características da dentição humana, afetando assim o conceito estético desses materiais e diminuindo o conforto do paciente. Este trabalho propõe desenvolver pós de zircônia pigmentada através do método Pechini, dopando-os com óxido de ferro em diferentes concentrações (3 %, 2 %, 1 %, 0,5 %, 0,25 % em mol) e itria, posteriormente calciná-los a temperatura de 1000 °C, com a finalidade de obter a mistura química mais efetiva, próxima da tonalidade da dentina humana. As amostras foram caracterizadas por Difração de Raios X (DRX), Microscopia Eletrônica de Varredura (MEV), Espectroscopia de Energia Dispersiva (EDS), teste de toxicidade e avaliação colorimétrica, confirmando a presença do ferro dentro da microestrutura da zircônia e suas modificações causadas no material. Os resultados indicam que os tamanhos de cristalitos dos pós sintetizados aumentaram de 35,45 nm para 48,97 nm, quando a concentração de ferro aumentou de 0 % para 3%. Os espectros de EDS indicaram a presença de ferro em todas as amostras, com variadas concentrações do pigmento. O método utilizado foi efetivo para a produção de pós de zircônia com variadas nuances de cores, possuindo um grande potencial para aplicações odontológicas.

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