传统的金属镁热还原法制取的硼粉纯度低,含有大量的镁、氧等杂质。
The boron powder prepared by traditional heating reduction with magnesium is lower in purity and contains high impurities, such as Mg, o.
通过镁热还原法在高压釜内成功的合成过渡金属氮化钛空心纳米笼,并对其生长的可能的机理进行了讨论。
TiN hollow nanocages were successfully synthesized Via Mg-thermal reduction, the possible growth mechanism was also studied at the same time.
研究了采用高岭土型煤矸石为原料,经碳热还原制取的铝硅铁合金为还原剂热还原炼镁的工艺条件。
The paper studies the thermal reduction magnesium process with ferro-aluminum-silicon produced from carbon thermal reduction as reducing agent and kaoline coal gangue as raw material.
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