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Beta type titanium alloy for surgical implanting piece

A surgical implant and titanium alloy technology, applied in the field of surgical medical implant materials, can solve the problems of increased smelting times, raw material and processing costs, difficult control of ingot metallurgical quality, insufficient alloy tensile strength, etc., to achieve low cost and high elasticity Low modulus and good plasticity

Inactive Publication Date: 2005-08-31
XIAN CONTINENTAL BIOMATERIALS CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, among these alloys, some have a higher modulus of elasticity (90-100GPa) or a modulus of elasticity as low as 55GPa, but at this time the tensile strength of the alloy is less than 600MPa, such as Ti35Nb5Ta7Zr alloy; some alloys have low elongation; Some alloys contain toxic element Al, such as Ti15Mo5Zr3Al
In addition, due to the addition of a large amount of rare and precious refractory metals Hf, Ta, Mo, and Nb to the above alloys, it is difficult to control the metallurgical quality of the ingot, and it is necessary to increase the number of smelting times and the corresponding raw materials and processing costs.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] Using grade 0 sponge titanium Ti, atomic energy zirconium zirconium Zr, pure Sn plate, and Ti-15Mo and Ti-52Nb master alloys as raw materials, the electrodes are mixed and pressed into electrodes, and then smelted twice in a vacuum consumable electric arc furnace. The first smelting voltage is 32 volts and the smelting current is 1300 amps; the secondary smelting voltage is 35 volts and the smelting current is 2200 amps; the vacuum degree before smelting is not lower than 10 -2 Pa, made alloy ingot; the weight percentage composition of alloy ingot is: Zr: 3%, Sn: 2%, Mo: 3%, Nb : 25%, the balance is Ti. The ingot is forged at 1050°C. After several times of upsetting and drawing, it is first forged into a 42mm square bar, and then forged into a φ37mm round bar. Then it goes through continuous hot rolling at 950°C to make a thin rod with a diameter of φ12.5mm, and its original state performance is σ b =790MPa; σ 0.2 =435MPa; δ s = 21% %; ψ = 56%; E = 57.3 GPa. Finall...

Embodiment 2

[0018] Other conditions are the same as Example 1, and the weight percent composition of the alloy ingot is Zr: 3.5%, Sn: 2%, Mo: 3%, Nb: 25%, and the balance is Ti. After solution treatment at 750° C. / 1 hour and air cooling, the alloy of the present invention was obtained. The measured tensile mechanical property parameters of the alloy at room temperature are:

[0019] σ b =660MPa; σ 0.2 =340MPa; σ s = 27.5%; ψ = 79%; E = 60.9 GPa.

Embodiment 3

[0021] Other conditions are the same as Example 1, and the weight percent composition of the alloy ingot is Zr: 2.5%, Sn: 2%, Mo: 3%, Nb: 25%, and the balance is Ti. After solution treatment at 820°C / 1 hour and air cooling, the alloy of the present invention was obtained. The measured tensile mechanical property parameters of the alloy at room temperature are:

[0022] σ b =630MPa; σ 0.2 =385MPa; δ s = 39%; ψ = 82.5%; E = 60.7 GPa.

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PUM

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Abstract

A beta-type Ti alloy used for the surginal implant contains Zr (0.1-9.5 wt.%), Sn (0.5-9.5), Mo (0.5-9.5), Nb (20-30), C (0-0.03), N (0-0.04), H (0-0.003), O (0-0.12), and Ti (rest). It has high performance including tension strength, yield strength, elongation percentage, etc.

Description

technical field [0001] A β-type titanium alloy for surgical implants, relating to a metal alloy material for surgical implants, in particular to a surgical medical implant material for human hard tissue repair and replacement, such as bones, teeth, joints, splints β-type titanium alloys for surgical implants such as plates and intramedullary nails. Background technique [0002] Titanium alloy has become an ideal biomedical material after traditional stainless steel and cobalt-based alloys due to its high specific strength, low elastic modulus, corrosion resistance, and excellent biocompatibility. Medical stainless steel and cobalt-based alloys are increasingly being used in clinical applications due to the presence of toxic elements such as nickel Ni, cobalt Co, and chromium Cr and their high elastic modulus. As early as the early 1940s, pure titanium was introduced into the biomedical field. Later, due to clinical needs, α-type titanium alloy Ti3Al2.5V and α+β-type titaniu...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61L27/06C22C14/00
Inventor 于振涛周廉王克光赵彬洪权牛金龙付艳艳蔡玉荣梁芳慧
Owner XIAN CONTINENTAL BIOMATERIALS CO LTD