High-strength magnesium-aluminum alloy
A magnesium-aluminum alloy, high-strength technology, applied in the field of magnesium-aluminum alloy, can solve problems such as insufficient fusion of alloy raw materials, easy wear of magnesium-aluminum alloy, and increased production costs, so as to improve melting efficiency, increase contact surface, and increase production rate Effect
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Embodiment 1
[0021] 1. Preliminary preparation:
[0022] The preparation of the assembly of rare earth compound and calcium silicate: After mixing 100g of lanthanide rare earth metal compound and 150g of absolute ethanol, put it in the reactor, adjust the pH value of the reaction solution to 7.8 with a mass fraction of 10% ammonia solution At the same time, under the conditions of temperature at 35°C, far-infrared radiation power of 300w and ultrasonic power of 1500w, 50 parts of calcium silicate powder were added three times, stirred for 2 hours, and finally centrifuged at a speed of 1000r / min. After washing and drying the white product, an assembly of rare earth compounds and calcium silicate is obtained.
[0023] After calculation, the yield of rare earth compound and calcium silicate assembly is 45.8%.
[0024] The substances prepared above are used in the preparation of the following high-strength magnesium-aluminum alloys.
[0025] 2. A preparation of high-strength magnesium-alumin...
Embodiment 2
[0029] 1. Preliminary preparation:
[0030] The preparation of the assembly of rare earth compound and calcium silicate: after mixing 100g of lanthanide rare earth metal compound and 165g of absolute ethanol, put it in the reactor, adjust the pH value of the reaction solution to 7.9 with a mass fraction of 13% ammonia solution At the same time, under the conditions of temperature of 40°C, far-infrared radiation power of 350w and ultrasonic power of 2000w, 50 parts of calcium silicate powder were added in three times, stirred for 2.5 hours, and finally centrifuged at a speed of 1400r / min , after washing and drying the white product, an assembly of rare earth compounds and calcium silicate is obtained.
[0031] After calculation, the yield of rare earth compound and calcium silicate assembly is 46.3%.
[0032] The substances prepared above are used in the preparation of the following high-strength magnesium-aluminum alloys.
[0033] 2. A preparation of high-strength magnesium-...
Embodiment 3
[0037] 1. Preliminary preparation:
[0038] The preparation of the assembly of rare earth compound and calcium silicate: After mixing 100g of lanthanide rare earth metal compound and 170g of absolute ethanol, put it into the reactor, adjust the pH value of the reaction solution to 8 with a mass fraction of 14% ammonia solution At the same time, under the conditions of temperature of 42°C, far-infrared radiation power of 400w and ultrasonic power of 2200w, 50 parts of calcium silicate powder were added three times, stirred for 3 hours, and finally centrifuged at a speed of 1300r / min. After washing and drying the white product, an assembly of rare earth compounds and calcium silicate is obtained.
[0039] After calculation, the yield of rare earth compound and calcium silicate assembly is 47.2%.
[0040] The substances prepared above are used in the preparation of the following high-strength magnesium-aluminum alloys.
[0041] 2. A preparation of high-strength magnesium-alumin...
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