Numéro
J. Phys. IV France
Volume 04, Numéro C3, Février 1994
36ème Colloque de Métallurgie de l'INSTN
CHANGEMENTS DE PHASES ET MICROSTRUCTURES
Page(s) C3-111 - C3-116
DOI http://dx.doi.org/10.1051/jp4:1994315
36ème Colloque de Métallurgie de l'INSTN
CHANGEMENTS DE PHASES ET MICROSTRUCTURES

J. Phys. IV France 04 (1994) C3-111-C3-116

DOI: 10.1051/jp4:1994315

Transformations structurales dans l'alliage de titane , β-CEZ études des mécanismes de précipitation après traitement de mise en solution

C. ENGELIER and J. BÉCHET

Laboratoire de Métallurgie du Conservatoire National des Arts et Métiers, 292 rue Saint Martin, 75141 Paris cedex 03, France


Abstract
The β-CEZ, a high strength titanium alloy developed for aerospace engine applications, is a α/β near β alloy. A wide variety of phase transformations and attendant nodular, lamellar and mixed microstructures are possible according to thermomechanical treatment conditions. The aim of this present paper is to illustrate the influence of solution treatment temperature on equilibrium microstructures and continuous cooling transformations. Solution treatment temperature controls the volume fraction of primary α particles and composition of the β-matrix. Therefore the transformation during continuous cooling from α/β or β field depends on β-matrix stability and potential sites amount of α precipitation. After a β solution treatment, the α particles are disappeared and the β phase contains all alloying elements; the continuous cooling transformation produces a Widmanstätten structure. If the cooling rate or/and the solution treatment temperature in the α/β field are sufficiently low, the microstructure consists only of nodular morphology. During α particles growth the α volume fraction increases as equilibrium and the decreasing of growth kinetic leads to supersatured β matrix and Widmanstätten α precipitation. The final microstructures are mixed. The influence of solution treat-ment temperature and cooling rate on nucleation and growth mechanisms is specially developed.



© EDP Sciences 1994