Method for preparing high-purity superfine low-oxygen titanium hydride powder and dehydrogenated titanium powder
A titanium hydride powder, high-purity technology, which is applied in the field of powder metallurgy in the powder metallurgy process, can solve the problems of reduced powder quality, high surface activity, and increased oxygen content, and achieves reduced production costs, uniform particle size distribution, and low oxygen content. Effect
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[0023] Based on the above-mentioned purpose and principle, the present invention provides a method for preparing high-purity, fine and low-oxygen titanium hydride powder. The method includes the following steps:
[0024] 1) Hydrotreating sponge titanium at 350-680°C and 0.3-0.6MPa high-purity hydrogen pressure for 3-8h to obtain coarse-grained titanium hydride powder with a particle size of 80-500μm;
[0025] 2) The above-mentioned coarse-particle titanium hydride powder is subjected to airflow grinding in a closed-loop jet mill under the condition of high purity argon pressure of 0.35~0.6MPa, by changing the frequency of the classification wheel and feeding valve in the closed-loop jet mill system, and the system oxygen content To obtain titanium hydride powder with required particle size and oxygen content specifications;
[0026] 3) Vacuum packaging the above-mentioned titanium hydride powder to obtain a high-purity, fine and low-oxygen titanium hydride powder product.
[0027] Whe...
Example Embodiment
[0047] Example 1
[0048] Preparation of 500 mesh titanium hydride powder with 0.20wt% oxygen content
[0049] 1. Hydrogenation treatment of grade 4 sponge titanium with an oxygen content of 0.30wt% under the conditions of 580°C and 0.55MPa high-purity hydrogen pressure for 6 hours to obtain coarse particles of titanium hydride with an average particle size of 80μm;
[0050] 2. The above titanium hydride powder is subjected to jet milling in a closed-loop jet mill under the condition of high purity argon pressure of 0.6MPa to obtain a purity greater than 98.8wt%, an average particle size of 25μm (500 mesh), and an oxygen content of 0.20wt% Titanium hydride powder;
[0051] 3. The above-mentioned titanium hydride powder is vacuum-packed to obtain high-purity and fine low-oxygen titanium hydride powder.
[0052] Prepare 500 mesh, oxygen content 0.19wt% dehydrogenated titanium powder
[0053] 1. Hydrogenation treatment of grade 4 sponge titanium with an oxygen content of 0.30wt% at 580°C a...
Example Embodiment
[0058] Example 2
[0059] Prepare 400 mesh titanium hydride powder with an oxygen content of 0.18 wt%
[0060] 1. Hydrogenation treatment of grade 4 sponge titanium with an oxygen content of 0.30wt% under the conditions of 680°C and 0.55MPa high-purity hydrogen pressure for 4h to obtain coarse particles of titanium hydride with an average particle size of 100μm;
[0061] 2. The above titanium hydride powder is subjected to jet milling treatment in a closed-loop jet mill under the condition of high purity argon pressure of 0.6MPa to obtain a purity greater than 98.8wt%, an average particle size of 38μm (400 mesh), and an oxygen content of 0.18wt% Titanium hydride powder;
[0062] 3. The above-mentioned titanium hydride powder is vacuum-packed to obtain high-purity and fine low-oxygen titanium hydride powder.
[0063] Prepare 400 mesh, 0.17wt% oxygen content dehydrogenated titanium powder
[0064] 1. Hydrogenation treatment of grade 4 sponge titanium with an oxygen content of 0.30wt% unde...
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