SU1159670A1 - Method of isothermal deformation of titanium alloys - Google Patents

Abstract

THE METHOD OF ISOTHERMAL DEFORMATION OF TITANIUM ALLOYS, which, prior to heating, glass-lubricate with a viscosity determined by the process parameters, is distinguished by the fact that, in order to improve the surface quality of the products and reduce the strain force, the viscosity of the glass-lubricant is chosen according to the V –c dependency. t | - dynamic viscosity lubrication. Pass; {, is the specific force of deformation. Pa; V is the deformation rate, (L mm / s; k is the empirical coefficient, k

Description

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05 M The invention relates to the processing of metals by pressure and can be used in the manufacture of parts from titanium alloys by isothermal deformation using glass lubricant. The purpose of the invention is to improve the quality of the surface of the products and reduce the stress of deformation. This goal is achieved in that according to the method in which, prior to heating, a glass lubricant is applied to the workpiece with a viscosity determined by the process parameters, the viscosity of the glass lubricant is selected according to dependence 1 where h is the dynamic viscosity of the glass lubricant. Pass; - specific force of deformation. Pa; V is the rate of deformation, 1 is the empirical coefficient, to (6-13) -10 mm. The proposed relationship was established and determined experimentally, which is confirmed by examples of the specific implementation of the method (see table). Round in plan are stamped in the form of discs of titanium alloy VTZ-1 with a diameter of 40 mm and a web thickness of 2.5 mm. The heating temperature of the workpiece and stamp 940 ± 10 C, the degree of deformation of 60%. The deformation rate and viscosity of glass grease vary. The results are tabulated. Mixtures of glass powders No. 36, EVT24 and EVT10 are used as lubricants. The use of the invention improves the surface quality of the extruded products by maintaining a continuous lubricating film. optimum thickness, reducing the strain force by reducing the thrust forces, facilitating the removal of the stamped parts from the die. an account for eliminating the setting of a deformable metal with a stamp.

9100 5.69-10 0.052 6800 7.11-10 0.052 19100 7, 0.052 4200 10 0.2 8.4-10 8.010 4.97–10 14.0 -10 There is no continuous lubricating film on the surface, no defects. The part is easily removed from the stamp. A lubricating film is absent on the surface and there are scratches and risks. The part is difficult to remove from the stamp. The lubricant is pressed into the body of the workpiece, forming the shape and seal. Detail sticks in the stamp. There is a continuous lubricating film on the surface, no defects. The part is easily removed from the stamp.

2900

1.2-10 0.2

8500

1.2-10 0.2

1300

1.6-10 1.0

980

1.96-IP 1.0

1.98-10 1.0

2800

t,

ten

There are scuffs and risks on the surface. The hard part is removed from the die.

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ten

The lubricant is pressed into the surface of the workpiece. Detail sticks in the stamp.

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- (

There is a continuous lubricating film on the surface, no surface defects. The part is easily removed from the die.

.- "

There are scuffs and risks on the surface. The part is difficult to remove from the stamp.

ABOUT

The lubricant is pressed into the body of the workpiece, forming the shape and seal. Detail sticks in the stamp.

Claims (1)

METHOD FOR ISOTHERMIC DEFORMATION OF TITANIUM ALLOYS, in which before heating, glass lubricant is applied with a viscosity determined by the process parameters, characterized in that, in order to improve the surface quality of the products and reduce the deformation force, the viscosity of the glass lubricant is selected according to where h is the dynamic viscosity of the lubricant, Pa s ; C, is the specific strain force, Pa; V is the strain rate, mm / s; k - empirical coefficient k = (6-13) x 10 ^'s mm. (L