Formation mechanism and nanocrystalline phase transformation of molybdenum disilicide by mechanical alloying

P KANG; Z YIN

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Formation mechanism and nanocrystalline phase transformation of molybdenum disilicide by mechanical alloying

机译：机械合金化二硅化钼的形成机理和纳米晶相变

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The formation mechanism of stoichiometric MoSi_2 by mechanical alloying (MA) from elemental powders has been investigated. The experimental results demonstrate that molybdenum disilicide can be synthesized by MA through different formation mechanisms, which are governed by the milling energy. MoSi_2 is formed by the mechanism of self-propagating high-temperature synthesis (SHS) at high rotational speeds and most likely by the mechanism of a mechanical collision reaction (MCR) at lower rotational speeds. Nanocrystalline phase transformation of alpha - > beta occurs during MA when the crystallite size decreases to approximately 8 nm; the final product of MA is, beta -MoSi_2.

机译：研究了由元素粉末通过机械合金化（MA）形成化学计量MoSi_2的机理。实验结果表明，MA可以通过不同的形成机理由MA合成二硅化钼，而形成机理受研磨能的支配。 MoSi_2是由高转速下的自蔓延高温合成（SHS）机理形成的，最有可能是由较低转速下的机械碰撞反应（MCR）机理形成的。当微晶尺寸减小到大约8 nm时，在MA期间发生α->β的纳米晶相转变。 MA的最终产物是beta -MoSi_2。

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《Nanotechnology》 |2004年第7期|共5页
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P KANG; Z YIN;
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1. Formation mechanism and nanocrystalline phase transformation of molybdenum disilicide by mechanical alloying [J] . P KANG, Z YIN Nanotechnology . 2004,第7期

机译：机械合金化二硅化钼的形成机理和纳米晶相变
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Formation mechanism and nanocrystalline phase transformation of molybdenum disilicide by mechanical alloying

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