Medical cobalt, tantalum and molybdenum alloy 3D printing metal powder with biocompatibility and preparation method of medical 3D printing metal powder
A biocompatible, 3D printing technology, applied in the direction of additive processing
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[0014] The invention provides a method for preparing biocompatible cobalt-tantalum-molybdenum alloy medical 3D printing metal powder, the preparation method comprising:
[0015] 1) Smelting and slagging metal raw materials to obtain molten metal;
[0016] 2) ultrasonically atomizing and condensing the molten metal to obtain alloy particles;
[0017] 3) The alloy particles are subjected to isostatic pressing to obtain cobalt-tantalum-molybdenum alloy medical 3D printing metal powder;
[0018] Wherein, based on the total weight of the metal raw material, the metal raw material contains 25-27% by weight of tantalum, 10-15% by weight of molybdenum, 0.06-0.5% by weight of carbon, 0.01-0.02% by weight of nickel, 0.5-4% by weight % iron, 1-2 wt% silicon, 1.1-1.5 wt% boron, 1.1-2 wt% manganese and the balance cobalt.
[0019] In the above preparation method, the specific conditions of smelting can be selected in a wide range, but in order to make the cobalt-tantalum-molybdenum alloy...
Embodiment 1
[0031] 1) The metal raw materials are prepared according to the ratio and smelted at 1550°C and 0 MPa vacuum for 2.5 hours, and slagging at 1530°C for 15 minutes with a compound slag-removing agent to obtain a metal molten slurry;
[0032] 2) Ultrasonic atomization treatment is carried out on the molten metal (the pressure of the ultrasonic airflow is 1.5MPa, the pulse frequency is 90KHz, and the airflow velocity is not greater than 640m / s; the pressure of the gas medium is 5.5MPa; the impact force of the alloy solution and the ultrasonic airflow The ratio is 1:4; the gas medium and the ultrasonic gas flow are both argon), and the alloy particles are condensed according to the condensation speed of 104.5K / s;
[0033] 3) Screening the alloy particles so that the particle size of the alloy particles is 25 μm;
[0034] 4) The alloy particles were subjected to isostatic pressing at 300MPa for 12 hours to obtain cobalt-tantalum-molybdenum alloy medical 3D printing metal powder A1; ...
Embodiment 2
[0037] 1) Smelting metal raw materials at 1600°C and 0MPa vacuum for 2.3 hours, and slagging at 1550°C for 10 minutes with a compound slag-removing agent to obtain a metal molten slurry;
[0038] 2) Ultrasonic atomization treatment of the molten metal (the pressure of the ultrasonic airflow is 2MPa, the pulse frequency is 80KHz, the airflow velocity is not more than 640m / s; the pressure of the gas medium is 1.4MPa; the ratio of the impact force of the alloy solution to the ultrasonic airflow 1:3.5; both the gas medium and the ultrasonic gas flow are argon), and condense at a condensation rate of 104-105K / s to obtain alloy particles;
[0039] 3) Screening the alloy particles so that the particle size of the alloy particles is 15 μm;
[0040]4) The alloy particles were subjected to isostatic pressing at 280MPa for 14 hours to obtain cobalt-tantalum-molybdenum alloy medical 3D printing metal powder A2;
[0041] Wherein, based on the total weight of the metal raw material, the me...
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