A kind of amorphous magnesium aluminum matrix composite hydrogen storage material and preparation method thereof
A hydrogen storage material and a magnesium-aluminum-based technology, which is applied in the field of lightweight hydrogen storage materials, can solve the problem of high hydrogen desorption temperature of the magnesium-based hydrogen storage material, and achieve the effects of avoiding the weakening of the diffusion capacity, accelerating the hydrogen storage process, and simplifying the process.
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Embodiment 1
[0030] According to Mg 17 Al 12 The composition ratio of the alloy, the raw materials are Mg and Al powders with a particle size of 74-154 μm and a purity of 99%. 17 Al 12 Mix the proportions evenly and place them in a double-layer ball mill tank in a ball mill controlled by ice and salt water, and ball mill at 0°C for 50 hours to prepare amorphous Mg 17 Al 12 Base powder material. Subsequently, the transition metal hydride of choice was TiH 2 powder, with a purity of 99%, the prepared amorphous Mg 17 Al 12 Base powder and accounted for the Mg 17 Al 12 The total amount of matrix is 10wt.% TiH 2 The powder was mechanically ball milled at room temperature 25°C for 20 hours, the protective atmosphere of the ball mill was argon with a purity of 99.99%, the pressure of the protective atmosphere was 0.2MPa, the ball-to-material ratio during the ball milling process was 40:1, and the ball mill speed was 450rpm, and finally prepared Amorphous a-Mg 17 Al 12 +10wt.%TiH 2 ...
Embodiment 2
[0033] According to Mg 17 Al 12 The composition ratio of the alloy, the raw materials are Mg and Al powders with a particle size of 74-154 μm and a purity of 99%. 17 Al 12 Mix the proportions evenly and place it in a double-layer ball mill tank in a ball mill controlled by ice salt water, and ball mill at -1°C for 50h to prepare amorphous Mg 17 Al 12 Base powder material. Subsequently, the transition metal hydride of choice was TiH 2 powder, with a purity of 99%, the prepared amorphous Mg 17 Al 12 Base powder and accounted for the Mg 17 Al 12 The total amount of matrix is 8wt.% TiH 2 The powder was mechanically ball milled at room temperature 25°C for 30 hours, and other preparation processes were the same as in Example 1, and finally amorphous a-Mg was prepared 17 Al 12 +8wt.%TiH 2 Magnesium-based composite hydrogen storage materials.
[0034] For the analysis of amorphous a-Mg 17 Al 12 with TiH 2 The composite situation of the sample is analyzed by energy s...
Embodiment 3
[0036] According to Mg 17 Al 12 The composition ratio of the alloy, the raw materials are Mg and Al powders with a particle size of 74-154 μm and a purity of 99%. 17 Al 12 Mix the proportions evenly and put them in a double-layer ball mill tank in a ball mill with ice salt water for temperature control, and ball mill at -5°C for 35 hours to prepare amorphous Mg 17 Al 12 Base powder material. Subsequently, the transition metal hydride of choice was TiH 2 powder, with a purity of 99%, the prepared amorphous Mg 17 Al 12 Base powder and accounted for the Mg 17 Al 12 The total amount of matrix is 10wt.% TiH 2 The powder was mechanically ball milled at room temperature 25°C for 2 hours, the protective atmosphere of the ball mill was hydrogen with a purity of 99.99%, the pressure of the protective atmosphere was 2.5MPa, the ball-to-material ratio during the ball milling process was 20:1, and the ball mill speed was 200rpm. Crystalline a-Mg 17 Al 12 +10wt.%TiH 2 Magnesi...
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