Preparation method of medical high-precision titanium and titanium alloy rods

A titanium alloy, high-precision technology, applied in the field of metal material processing, can solve the problems of deep indentation, labor-intensive processing and low recycling value, etc., and achieve the effect of prolonging service life, high economic value and increasing mechanical strength

Inactive Publication Date: 2016-04-27
BAOJI DELI TITANIUM IND
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The existing method of preparing medical titanium alloy rods generally adopts the stress-relief straightening method during finishing treatment. When turning the rods before finishing treatment, a minimum margin of 0.30mm-0.40mm should be left, and this The temperature of the bar is relatively high during heating. Generally, the pure titanium bar needs to be heated to 550°C-600°C, and the titanium alloy bar needs to be heated to 650-700°C. Thick, the material becomes soft as a whole, the overall indentation of the bar is deeper when straightening, and the minimum value will reach 0.10mm, and these unfavorable factors cannot be eliminated by polishing alone, so these unfavorable factors must be eliminated by grinding, and the grinding process is rough The thickness reaches 6.4um, and it must be polished twice to meet the requirements of the finished bar. Moreover, the grinding process is labor-intensive and time-consuming, and the abrasive debris produced is mixed with sand particles, and the recovery value is low. Therefore, it is necessary to improve the preparation method.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0051] The specific implementation will be further described in detail below in conjunction with the preparation process of medical high-precision titanium rods with a diameter tolerance of h7-h8, a diameter of 9.5 mm, and a length of 3 m.

[0052] First, select a pure titanium billet with a diameter of 360mm and a length of 1.7m, and cut off the part that is found to be defective after ultrasonic flaw detection; put the pure titanium billet into a resistance furnace and heat it to 950°C, keep it warm for 1 hour, and use a hydraulic press to make the pure titanium The deformation rate of the billet reaches 50% to obtain a pure titanium billet; the pure titanium billet is cut into a small pure titanium billet of the weight required for the finished bar; the small pure titanium billet is put into the resistance furnace again and heated to 850°C, and kept for 1 Hours, use wire rolling equipment to make the deformation rate of small pure titanium ingot reach 50% to make pure titani...

Embodiment 2

[0054] The specific implementation will be further described in detail below in conjunction with the preparation process of medical high-precision titanium rods with a diameter tolerance of h7-h8, a diameter of 9.5 mm, and a length of 3 m.

[0055]First, select a pure titanium billet with a diameter of 360mm and a length of 1.7m, and cut off the part that is found to be defective after ultrasonic flaw detection; put the pure titanium billet into a resistance furnace and heat it to 1050°C, keep it warm for 4 hours, and use an air hammer to make the pure titanium billet The deformation rate of the titanium billet reaches 65% to obtain a pure titanium billet; the pure titanium billet is cut into a small pure titanium billet of the weight required for the finished bar; the small pure titanium billet is put into the resistance furnace again and heated to 1000°C, and kept warm For 4 hours, use wire rolling equipment to make the deformation rate of the small pure titanium ingot reach ...

Embodiment 3

[0057] The specific implementation will be further described in detail below in conjunction with the preparation process of medical high-precision titanium rods with a diameter tolerance of h7-h8, a diameter of 9.5 mm, and a length of 3 m.

[0058] First, select a pure titanium billet with a diameter of 360mm and a length of 1.7m, and cut off the part that is found to be defective after ultrasonic flaw detection; put the pure titanium billet into a resistance furnace and heat it to 990°C, keep it warm for 2.5 hours, and use an electro-hydraulic hammer to make it The deformation rate of the pure titanium billet reaches 58% to obtain a pure titanium billet; the pure titanium billet is cut into a small pure titanium billet of the weight required for the finished bar; the small pure titanium billet is put into the resistance furnace again and heated to 920°C, Keep warm for 2.5 hours, and use wire rolling equipment to make the deformation rate of the small pure titanium ingot reach ...

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Abstract

The invention discloses a preparation method of a medical high-precision titanium and titanium alloy bar material. The preparation method comprises the following steps of: preparing a blank, discharging, forging in a cogging way, a machining in a deformation way, annealing, thermally straightening, turning, carrying out low-temperature precision straightening, polishing twice, and packing an inspected finished product. The preparation method has the beneficial effects that when the bar material is turned before being finely machined, the diameter of the bar material can be directly machined into the size of a finished bar material, so that the waste dregs generated when the bar material is turned can be recycled, and the preparation method is very high in economic value; the heating temperature is lower when the bar material is processed in a finishing way, so that the preparation method hardly influences or change the metallographic structure of the bar material, the service life of the bar material can be prolonged, and the mechanical strength of the bar material can be increased; and when the bar material is processed in a finishing way, the heating temperature is lower, an oxide skin on the surface of the bar material is extremely thin, and the whole bar material has few indentations when straightened, after being straightened the bar material is polished twice by a polisher without being ground to reach the requirements of a finished bar material on roughness (1.6 mu m) and dimensional tolerance.

Description

technical field [0001] The invention belongs to the technical field of metal material processing, and in particular relates to a method for preparing medical high-precision titanium and titanium alloy rods. Background technique [0002] The existing method of preparing medical titanium alloy rods generally adopts the stress-relief straightening method during finishing treatment. When turning the rods before finishing treatment, a minimum margin of 0.30mm-0.40mm should be left, and this The temperature of the bar is relatively high during heating. Generally, the pure titanium bar needs to be heated to 550°C-600°C, and the titanium alloy bar needs to be heated to 650-700°C. Thick, the material becomes soft as a whole, the overall indentation of the bar is deeper when straightening, and the minimum value will reach 0.10mm, and these unfavorable factors cannot be eliminated by polishing alone, so these unfavorable factors must be eliminated by grinding, and the grinding process ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B23P13/00
Inventor 刘翔寇强
Owner BAOJI DELI TITANIUM IND
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