MATERIAL FOR THE MANUFACTURE OF HIGH-STRENGTH FASTENERS AND METHOD FOR PRODUCING SAME

MATERIAL FOR THE MANUFACTURE OF HIGH-STRENGTH FASTENERS AND METHOD FOR PRODUCING SAME

The invention relates to metallurgy, and more particularly to producing titanium alloy-based materials with specific mechanical properties for the manufacture of fasteners for use in various fields of industry and preferably in the aerospace industry. The claimed material for the manufacture of high...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: LEDER, Mikhail Ottovich, GREBENSHCHIKOV, Aleksandr Sergeyevich, SHCHETNIKOV, Nikolay Vasilyevich, VOLKOV, Anatoliy Vladimirovich
Format: Patent
Sprache:eng ; fre ; rus
Schlagworte:
ALLOYS
AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKINGWITHOUT ESSENTIALLY REMOVING MATERIAL
CHANGING THE PHYSICAL STRUCTURE OF NON-FERROUS METALS ANDNON-FERROUS ALLOYS
CHEMISTRY
FERROUS OR NON-FERROUS ALLOYS
MANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES,OTHERWISE THAN BY ROLLING
MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVINGMATERIAL
METALLURGY
PERFORMING OPERATIONS
PUNCHING METAL
TRANSPORTING
TREATMENT OF ALLOYS OR NON-FERROUS METALS
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Beschreibung
Zusammenfassung:The invention relates to metallurgy, and more particularly to producing titanium alloy-based materials with specific mechanical properties for the manufacture of fasteners for use in various fields of industry and preferably in the aerospace industry. The claimed material for the manufacture of high-strength fasteners is made from a titanium alloy containing alloying elements in the form of α-stabilizers, ꞵ-stabilizers and neutral strengthening elements, the rest being titanium and unavoidable impurities. The size of a beta-subgrain in the structure of the material, which is subjected to solution annealing and aging, does not exceed 15 μm. The material for the manufacture of high-strength fasteners is produced in the form of round bar with a diameter of up to 40 mm or round wire with a diameter of up to 18 mm, which are subjected to solution annealing and aging. After solution annealing and aging, the material has an ultimate tensile strength of greater than 1400 MPa, an elongation of greater than 11%, a reduction in area of greater than 35% and a double shear strength of greater than 750 MPa. An intermediate blank for drawing is obtained by melting an ingot of titanium alloy, thermomechanically processing the ingot to obtain a forged billet and then rolling same. An intermediate blank for drawing is also obtainable using a powder metallurgy method. L'invention se rapporte à la métallurgie, notamment à la production de matériaux à base d'alliage de titane ayant des propriétés mécaniques données afin de produire des éléments de fixation que l'on utilise dans divers domaines de l'industrie, principalement dans la construction aéronautique. L'invention concerne un matériau pour produire des éléments de fixation hautement résistants, qui est fait d'un alliage de titane comprenant des éléments dopants sous forme de stabilisants, de durcisseurs neutres, le reste se composant de titane et d'impuretés inévitables. La taille des sous-grains bêta dans la structure du matériau soumis à un traitement en solution solide et un vieillissement ne dépasse pas 15 microns. Le matériau pour produire des éléments de fixation hautement résistants se présente sous forme d'une barre de section ronde d'un diamètre allant jusqu'à 40 mm et d'une fibre de section ronde d'un diamètre allant jusqu'à 18 mm, qui sont soumises à un traitement en solution solide et à un vieillissement. Le matériau après traitement en solution solide et vieillissement possède une résistance limite à la trac