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Tribocorrosion Behavior of Metallic Implants: A Comparative Study of CoCrMo and Ti6AL4V Under the Effect of Normal LoadPatel, Mihir V. 04 June 2019 (has links)
No description available.
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Bêta-Bcc et alliages amorphes biocompatibles à base de titane pour les implants / beta-bcc and amorphous Ti-based biocompatible alloys for human body implantsGuo, Yaofeng 07 April 2014 (has links)
Les implants de corps humain biocompatibles à base de Ti de faible module de Young et sans élèments toxiques sont développés dans deux régimes de matériaux, les alliags cristallins à base de Ti-Nb(-Sn) et les alliages amorphes à base de Ti -Fe -Si. Une série d'alliages à base de Ti-Nb(-Sn) a été synthétisée par une aspiration coulée par la moule de cuivre et soumis à différents traitements thermiques (refroidissement du four ou trempe à l'eau). La microstructure, les propriétés thermiques et mécaniques des échantillons traités telles que la coulée et la chaleur ont été étudiées. On montre que l'addition de Sn augmente la stabilité de la phase β. Les modules de Young de ces alliages ont été également mesurés avec des mesures par ultrasons. Les alliages Ti74Nb26 trempés à l'eau avaient le plus faible module de Young. L'addition de Sn a peu d'impact sur le module de Young des alliages Ti-Nb. Les alliages amorphes à base de Ti- Fe-Si ont été synthétisés par filage à l'état fondu. La capacité de formation des verres, les propriétés thermiques et les propriétés de corrosion des alliages à base de Ti- Fe-Si ont été étudiées. La composition vitreuse a été conçue en fonction de la règle de l'eutectique profond. On a constaté que la région la plus proche du point eutectique ternaire(Ti65Fe30Si5) est une région quasi-cristalline icosaédrique, tandis que le côté plus raide (Si côté riche) de ce point eutectique ternaire est la région de formation de verre. L'effet de L'addition élémentaire mineur (Ge, Pd, Zr) sur la capacité de formation de verre des alliages à base de Ti- Fe-Si a été également étudié. L'observation in situ d'amorphisation des alliages vitreux Ti40Zr10Cu34Pd14Sn2 en faisceau synchrotron a été effectuée. L'alliage a été vitrifié avec succès dans un appareil à sustentation aérodynamique. / The Ti-based biocompatible human body implants of low Young's modulus and without toxic elements are developed in two regime of materials, crystalline Ti-Nb(-Sn) based alloys and amorphous Ti-Fe-Si based alloys. A series of Ti-Nb(-Sn) alloys were synthesized by copper mould suction casting and subjected to different heat treatments (furnace cooling or water quenching). The microstructure, thermal and mechanical properties of the as-cast and heat treated samples were investigated. It is shown that the addition of Sn increases the stability of the β phase. The Young's moduli of these alloys were also measured by ultrasonic measurements. Water-quenched Ti74Nb26 alloy was found to exhibits the lowest Young's modulus. Sn addition has little impact on the Young's moduli of the TiNb alloys. The Ti-Fe-Si based amorphous alloys were synthesized by melt spinning. The glass forming ability, thermal properties and corrosion properties of Ti-Fe-Si based alloys were investigated. The glassy compositions were designed according to the deep eutectic rule. It was found that the region near ternary eutectic point (Ti65Fe30Si5) is an icosahedral quasicrystal forming region, whereas the steeper side (Si rich side) of this ternary eutectic point is the glass forming region. Effect of minor elemental addition (Ge, Pd, Zr) on glass forming ability of the Ti-Fe-Si based alloys was also studied. The in situ observation of amorphization of Ti40Zr10Cu34Pd14Sn2 glassy alloy in synchrotron beam was conducted. The alloy was successfully vitrified in an aerodynamic levitation apparatus.
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ESTUDO DA RECRISTALIZAÇÃO DINÂMICA DURANTE A DEFORMAÇÃO A QUENTE DE UM AÇO ISO 5832-9 / STUDY OF THE DYNAMIC RECRYSTALLIZATION DURING THE DEFORMATION THE HOT ONE OF A STEEL ISO 5832-9Nascimento, Luciene Araujo 25 February 2010 (has links)
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Previous issue date: 2010-02-25 / FUNDAÇÃO DE AMPARO À PESQUISA E AO DESENVOLVIMENTO CIENTIFICO E TECNOLÓGICO DO MARANHÃO / Austenitic stainless steels have low economic value compared to titanium and its alloys,
considered the most resistant to corrosion in biological environment, and for over fifty
years are widely used in the manufacture of orthopedic implants, particularly in public
health service. Currently the ISO 5832-1 steel (ASTM F 138) is the most used in the
manufacture of orthopedic prosthesis, especially the temporary ones. However, because
it is susceptible to localized corrosion when in contact with human tissue, it is being
gradually replaced by austenitic stainless steel of low carbon and high nitrogen called ISO
5832-9. The same is already used extensively in Europe and the United States, while in
Brazil it's use is more recent and smaller scale. This work investigates the behavior of
dynamic recrystallization in an ISO 5832-9 steel through hot torsion tests and optical
microscopy, for different conditions of temperature, strain and strain rate. It was found
through the plastic flow curves of the studied material crystallizes dynamically and that the
high value of its apparent activation energy for deformation can be attributed to the
presence of a large amount of precipitated particles and nitrogen dissolved in the matrix.
Micrographs confirmed that tests carried out at low temperatures reveal a strong
retardation of dynamic recrystallization. Moreover, the presence of serrated grain
boundaries and nucleation of new grains in the old deformed grain boundaries, are strong
indications that the recrystallization occurred by a necklace mechanism. The behavior of
the average recrystallized grain size, DDRX, with temperature resembles the behavior of
the austenitic grain growth in microalloyed steels. The presence of a minimum in the
behavior of DDRX with the strain rate can be attributed to a minimum strain rate required
to cause the greatest amount of dynamics precipitation. / Os aços inoxidáveis austeníticos possuem um baixo valor econômico quando
comparados ao titânio e suas ligas, considerados os mais resistentes à corrosão em meio
biológico, e há mais de cinquenta anos são amplamente utilizados na confecção de
implantes ortopédicos, em especial no serviço de saúde pública. Atualmente o aço ISO
5832-1 (ASTM F 138) é o mais utilizado na confecção de próteses ortopédicas,
principalmente as temporárias. Entretanto, devido o mesmo ser suscetível à corrosão
localizada quando em contato com tecido humano, ele está sendo gradativamente
substituído pelo aço inoxidável austenítico de baixo teor de carbono e alto teor de
nitrogênio denominado de ISO 5832-9. O mesmo já é utilizado em larga escala na
Europa e nos Estados Unidos, enquanto no Brasil a sua utilização é mais recente e em
menor escala. Este trabalho investiga o comportamento da recristalização dinâmica em
um aço ISO 5832-9, através de ensaios de torção a quente e microscopia ótica, para
diferentes condições de temperatura, deformação e taxa de deformação. Foi constatado
através das curvas de escoamento plástico que o material estudado recristaliza
dinamicamente e, que o alto valor da sua energia de ativação aparente para a
deformação pode ser atribuído à presença de uma grande quantidade de partículas de
precipitados e ao nitrogênio em solução na matriz. Micrografias confirmam que ensaios
realizados a baixas temperaturas revelam um forte retardamento da recristalização
dinâmica. Além disso, a presença de contornos de grão serrilhados e nucleação de novos
grãos nos antigos contornos de grãos deformados, são fortes indícios de que a
recristalização ocorreu por mecanismo colar. O comportamento do tamanho de grão
médio recristalizado, DDRX, com a temperatura, se assemelha ao comportamento do
crescimento de grão austeníticos de aços microligados. A presença de um mínimo no
comportamento do DDRX com a taxa de deformação pode ser atribuído a uma taxa de
deformação mínima necessária para que ocorra a maior quantidade de precipitação
dinâmica.
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