J. M. Badía scite author profile

In the Ti-6Al-4V-ELI alloy, the alpha phase is gradually transformed into the beta phase until beta-transus temperature ( 980°C) is reached, and the transformation is completed. It is important to identify the transformation kinetics to accomplish the solution heat treatments in which a phase alpha percentage remains unchanged. Kinetics and other transformation characteristics are evaluated, as well as their influence on subsequent cooling transformations, by differential and dilatometric thermal analysis, electric conductivity measurements, hardness measurements and metallographic observation, after performing controlled thermal treatments. Starting from the mill annealed condition, samples were heated at temperatures between 650-1000 °C for 1 hour, then water quenched and subsequently heated for aging, air cooled. Finally, the mechanical properties of samples heat treated were obtained.

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Caracterización de las transformaciones Î±âÎ² de la aleación Tiâ6Alâ4V y de las características mecánicas y microestructurales obtenidas

Tarín¹,

Simon²,

Piris³

et al. 2004

Bol. Soc. Esp. Ceram. Vidr.

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En la aleación Ti-6Al-4V la fase α se va transformando en calentamiento en fase β hasta completarse al alcanzar la temperatura β-transus (≈1000 ºC). La identificación de la cinética de esa transformación es importante (y más todavía en otros tipos de aleaciones de Ti, como las super-α) para realizar tratamientos de solución en los que se deja sin transformar un determinado porcentaje de fase α (llamada primaria). En el presente trabajo se estudia y se valora la cinética y otras características de esa transformación, así como su influencia en transformaciones posteriores en enfriamiento, mediante técnicas de análisis térmico (diferencial y dilatométrico) y con medidas de conductividad eléctrica, estudios metalográficos y medidas de dureza, llevados a cabo tras la realización de tratamientos térmicos controlados. Los tratamientos térmicos realizados, a partir del estado de entrega (mill annealed), fueron calentamientos de 1 hora a temperaturas entre 650 ºC y 1050 ºC, con enfriamiento en agua con agitación, y posterior calentamiento a 530 ºC durante 6 horas y enfriamiento último al aire. Por otra parte, se han determinado las características mecánicas de muestras sometidas a esos tratamientos térmicos. Palabras clave: Titanio, tratamiento térmico, transformación, dilatometría, análisis térmico diferencial, propiedades mecánicas α↔β transformation, mechanical properties and microestructural characterization of Ti-6Al-4V alloyIn the Ti-6Al-4V alloy, the α phase is gradually transformed into the β phase until β-transus temperature (≈ 1000 ºC) is reached, and the transformation completed. It is important to identify transformation kinetics (mainly in other titanium alloy types, as near α) to accomplish solution heat treatments in which a phase α percentage (primary α) remains unchanged. In this paper, kinetics and other transformation characteristics are evaluated, as well as their influence on subsequent cooling transformations, by differential and dilatometric thermal analysis, electric conductivity measurements, hardness measurements and metallographic observation, after performing controlled thermal treatments. Starting from the mill annealed condition, samples were heated at temperatures between 650-1000 ºC for 1 hour, then water quenched and subsequently heated at 530 ºC for 6 hours, air cooled. Finally, the mechanical properties of samples heat treated as indicated above were obtained.Key words: Titanium, heat treating, transformation, differential thermal analisys, dilatometry, mechanical properties INTRODUCCIÓNAl calentar la aleación Ti-6Al-4V (tipo α+β) la fase α mayoritaria presente se va transformando progresivamente en fase β y se completa al alcanzar la temperatura β-transus (≈1000 ºC). La identificación de la la cinética de esa transformación, permite localizar la temperatura para realizar tratamientos de solución en los que se quiere dejar sin transformar un determinado porcentaje de fase α (llamada primaria). La importancia de ello es mayor en otros tipos de aleaciones de Ti, como las super-α, por vari...

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Microstructural characterisation and thermal stability of a metastable Mg-8.6 wt.% Zr alloy produced by physical vapour deposition

Garcés¹,

Antoranz²,

Pérez³

et al. 2003

MEKU

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J. M. Badía

Transformations in the Ti–5Al–2Sn–2Zr–4Mo–4Cr (Ti-17) alloy and mechanical and microstructural characteristics

Characterization of the α↔β transformations in a Ti–6Al–2Sn–4Zr–6Mo (wt.%) alloy

Study of Alpha-Beta Transformation in Ti-6Al-4V-ELI. Mechanical and Microstructural Characteristics

Caracterización de las transformaciones Î±âÎ² de la aleación Tiâ6Alâ4V y de las características mecánicas y microestructurales obtenidas

Microstructural characterisation and thermal stability of a metastable Mg-8.6 wt.% Zr alloy produced by physical vapour deposition

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J. M. Badía

Transformations in the Ti–5Al–2Sn–2Zr–4Mo–4Cr (Ti-17) alloy and mechanical and microstructural characteristics

Characterization of the α↔β transformations in a Ti–6Al–2Sn–4Zr–6Mo (wt.%) alloy

Study of Alpha-Beta Transformation in Ti-6Al-4V-ELI. Mechanical and Microstructural Characteristics

Caracterización de las transformaciones Î±âÎ² de la aleación Tiâ6Alâ4V y de las características mecánicas y microestructurales obtenidas

Microstructural characterisation and thermal stability of a metastable Mg-8.6 wt.% Zr alloy produced by physical vapour deposition

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Caracterización de las transformaciones Î±âÎ² de la aleación Tiâ6Alâ4V y de las características mecánicas y microestructurales obtenidas