METHOD FOR ROLLING BILLETS MADE OF HYPER-EUTECTOID gamma + alpha 2 ALLOYS AND METHOD FOR PRODUCTION OF BLANKS USED FOR EMBODIMENT THEREOF

METHOD FOR ROLLING BILLETS MADE OF HYPER-EUTECTOID gamma + alpha 2 ALLOYS AND METHOD FOR PRODUCTION OF BLANKS USED FOR EMBODIMENT THEREOF

The present invention relates to the pressure processing of metals and alloys and essentially to the processing of alloys containing titanium aluminides TiAl (phase gamma ) and Ti3Al (phase alpha 2)and obtained by a casting method. This invention also relates to a sintering method and can be used in...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: IMAEV, RENAT MAZITOVICH, SALISCHEV, GENNADY ALEXEEVICH, KAIBYSHEV, OSKAR AKRAMOVICH
Format: Patent
Sprache:eng ; fre ; rus
Schlagworte:
CHANGING THE PHYSICAL STRUCTURE OF NON-FERROUS METALS ANDNON-FERROUS ALLOYS
CHEMISTRY
FERROUS OR NON-FERROUS ALLOYS
MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVINGMATERIAL
METALLURGY
PERFORMING OPERATIONS
PUNCHING METAL
ROLLING OF METAL
TRANSPORTING
TREATMENT OF ALLOYS OR NON-FERROUS METALS
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Beschreibung
Zusammenfassung:The present invention relates to the pressure processing of metals and alloys and essentially to the processing of alloys containing titanium aluminides TiAl (phase gamma ) and Ti3Al (phase alpha 2)and obtained by a casting method. This invention also relates to a sintering method and can be used in the production of sheets or foils having a regulated structure. The method involves using as a starting blank a blank having a previously prepared fine-granulation structure. The rolling into sheets or foils of a predetermined thickness and with grains of a certain size is carried out in a range of deformation rates of 10 to 10 sec. and in a temperature range of T* to Te DEG C, wherein T* preferably ranges from 400 to 700 DEG C, while Te is the eutectic conversion temperature. The rolling is carried out in one or several steps during N transitions in isothermal or quasi-isothermal conditions. The preform heating temperature Ti+1 during each following step is selected according to the relation Ti+1 = Ti, where Ti is the preform heating temperature during the previous step, provided that during the first step Ti = To where To is the deformation temperature during the last step when producing a billet by a rolling process. The relations Ti+1 = Ti + DELTA Ti+1 or Ti+1 = Ti - DELTA ti+1 can also be respected, wherein Ti+1 is selected from conditions of allowed grain growth while DELTA ti+1 is selected from the conditions of deformability or deformability and oxidisability reduction of the alloys. Cette invention se rapporte à l'usinage sous pression de métaux et d'alliages, notamment à l'usinage d'alliages à base d'aluminures de titane TiAl (phase gamma ) et Ti3Al (phase alpha 2) obtenus par coulage. Cette invention concerne également un procédé de frittage, et peut être utilisée afin de produire des tôles et des feuilles ayant une structure réglementée. Ce procédé consiste à utiliser en qualité d'ébauche de départ une ébauche ayant une structure à granulation fine préalablement préparée. Le laminage en tôle ou en feuille d'une épaisseur prédéterminée et présentant des grains d'une certaine taille se fait dans la plage de vitesses de déformation 10 à 10 sec. et dans une plage de température T* à Te DEG C où T* varie de préférence de 400 à 700 DEG C tandis que Te représente la température de conversion eutectique. Ce laminage s'effectue en une ou plusieurs étapes au cours de N passages dans des conditions isothermes ou quasi-isothermes. La te