| CPC A61L 27/047 (2013.01) [A61F 2/4081 (2013.01); A61L 27/56 (2013.01); B22F 10/64 (2021.01); B22F 10/66 (2021.01); B22F 10/68 (2021.01); B33Y 10/00 (2014.12); B33Y 40/20 (2020.01); B33Y 80/00 (2014.12); C22C 16/00 (2013.01); A61F 2002/30011 (2013.01); A61F 2002/30224 (2013.01); A61F 2002/30784 (2013.01); A61F 2002/30822 (2013.01); A61F 2002/30968 (2013.01); A61F 2002/30985 (2013.01); A61F 2002/4022 (2013.01); A61F 2002/4033 (2013.01); A61F 2310/00089 (2013.01); A61F 2310/00095 (2013.01); A61L 2430/24 (2013.01); B22F 2201/11 (2013.01); B22F 2201/12 (2013.01); B22F 2301/205 (2013.01); B22F 2998/10 (2013.01); B22F 2999/00 (2013.01); C23C 8/12 (2013.01)] | 10 Claims |
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1. A preparation method of a shoulder joint prosthesis containing zirconium-niobium alloy on oxidation layer comprising the following steps:
1) Preparation of humeral handle with one articular surface or scapular glenoid plate
1-1) using zirconium-niobium alloy powder as the raw material, conducting a 3D printing for one-piece molding, and obtaining a first intermediate of the humeral handle with an articular surface and a first intermediate of the scapular glenoid plate, putting the two first intermediates into the Sinter-HIP furnace, heating to 1250° C.-1400° C. under helium/argon gas protection, placing at a constant pressure of 140 MPa-180 MPa for 1h to 3h, reducing to a normal pressure, cooling to below 200° C. with the furnace, taking them out, and obtaining a second intermediate of the humeral handle and a second intermediate of the scapular glenoid plate;
1-2) placing the second intermediate of the humeral handle and the second intermediate of the scapular glenoid plate in a programmable thermostat to cool to −80° C. to −120° C. at a rate of 1° C./min, keeping them at a constant temperature for 5 h to 10 h, and taking them out of the programmed thermostat; placing them in a liquid nitrogen for 16 h to 36 h, and adjusting the temperature to a room temperature so as to obtain a third intermediate of the humeral handle and a third intermediate of the scapular glenoid plate;
1-3) placing the third intermediate of the humeral handle and the third intermediate of the scapular glenoid plate in a programmable thermostat to cool to −80° C. to −120° C. at a rate of 1° C./min, and placing them at a constant temperature for 5 h to 10 h, taking them out of the programmed thermostat, placing them in the liquid nitrogen for 16 h to 36 h and adjusting the temperature to room temperature so as to obtain a fourth intermediate of the humeral handle and a fourth intermediate of the scapular glenoid plate;
1-4) machining, finishing, polishing, cleaning, and drying the fourth intermediate products, and obtaining a fifth intermediate of the humeral handle and a fifth intermediate of the scapular glenoid plate; the roughness of the hemispherical groove of the fifth intermediate product of the humeral handle is Ra≤0.050 μm;
1-5) placing the two fifth intermediate products in a tube furnace, introducing normal-pressure helium/argon gas containing 5% to 15% of oxygen in percentage by mass, heating to 500° C. to 700° C. at 5° C./min to 20° C./min, and cooling down to 400° C. to 495° C. at 0.4° C./min to 0.9° C./min; and cooling to be below 200° C. sequentially, taking them out to obtain the humeral handle with one articular surface and the scapular glenoid plate;
the structure of the humeral handle with the articular surface is the same as its first intermediate, second intermediate, third intermediate, fourth intermediate, and fifth intermediate;
the structure of the scapular glenoid plate is the same as its first intermediate, second intermediate, third intermediate, fourth intermediate, and fifth intermediate;
2) Preparation of humeral head
2-1) machining, finishing, polishing, cleaning, and drying forged pieces containing zirconium-niobium alloy to obtain the intermediate product of the humeral head; the roughness of the outer surface of the intermediate products of the humeral head is Ra≤0.050 μm;
2-2) placing the intermediate product of the humeral head in a tubular furnace, introducing normal-pressure helium/argon gas containing 5% to 15% of oxygen in percentage by mass, heating to 500° C. to 700° C. at 5° C./min to 20° C./min, and cooling to 400° cto 495° C. at 0.4° C./min to 0.9° C./min; and natural cooling to be below 200° C. sequentially, taking them out to obtain the humeral head;
the shoulder joint prosthesis containing zirconium-niobium alloy on oxidation layer comprises the humeral handle (1), the articular surface (12), the humeral head 2 and a scapular glenoid plate (3), the upper end of the articular surface (12) is provided with a hemispherical groove (13), the humeral head (2) is connected with the hemispherical groove (13) in a sliding mode, and the humeral head (2) is buckle-connected with the scapular glenoid plate (3); the scapular glenoid plate (3) is fixedly connected with a circular pipe (33) with internal thread and a hole (31) with internal thread, and the humeral handle (1) and the articular surface (12) are fixedly connected into the humeral handle with the articular surface; a bone trabeculae (4) is arranged on the outer surface of the upper part of the humeral handle (1), the upper surface of the scapular glenoid plate (3) and the outer surface of the circular pipe (33).
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