Estudo de solda a laser em ligas odontológicas utilizadas em prótese sobre implante: titânio comercialmente puro e liga de ouro
| Autor: | Bezerra, Roberto Messias |
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| Jazyk: | portugalština |
| Rok vydání: | 1999 |
| Předmět: | |
| Druh dokumentu: | Dissertação de Mestrado |
| Popis: | Este trabalho consiste no estudo de juntas soldadas de ligas metálicas Odontológicas, Titânio comercialmente puro e liga de ouro, aplicada em próteses sobre implantes, empregando processo de soldagem a laser. A caracterização destes biomateriais e das juntas soldadas foram feitas por meio de técnicas de análise química, análise metalográfica utilizando-se microscopia óptica e microscopia eletrônica de varredura - MEV, com espectroscopia por espalhamento de energia dispersiva de raios X-EDX, espedroscopia por comprimento de onda de raios X - WDX, mapeamento elementar, / difratometria de raios X. Foi estudado também a dureza, correlacionando-as com a microestrutura e composição química. Realizou-se ensaios caracterizando o processo de corrosão nos metais base e nas juntas soldadas, em solução de NaCI 0,15 mol L This work comprises the study of odontological metallic welded joints, commercially pure titanium and gold alloys, applied to prothesis on implants, employing laser welding process. The characterization of these biomaterials and welded joints was made by means of chemical and metallographic analysis, by using optical and scanning electron microscopy (SEM) technique with Energy Dispersive X Rays analysis (EDX), elemental mapping, and X-Ray Difractometry. Experimental tests were carried out characterizing the corrosion process in metal base and welded joints, in NaCI solution 0.15 mo L-1, using electrochemical techniques, potentiodynamic polarization curve. The correlation among hardness, microstructure and chemical composition was aiso studied. In the welding region, the commercially pure titanium microstructure type found was a martensitic one, and in the gold palladium alloy, it presented a dendritic morphology. In titanium, the hardness in the base metal was 199 HV, smaller than the hardness in welding region, which was 421 HV, due to the presence of the martensitic microstructure. In the gold alloy, the hardness in the base metal was 196 HV, greater than the one found in the welding region, which was 103 HV, due to the dendritic microstructure. In the characterization of resistance to corrosion, the results showed a smaller resistance to the corrosion in the welding area for both biomaterials in the studied environment |
| Databáze: | Networked Digital Library of Theses & Dissertations |
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