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Hardness and toughness of Mosi2 and MoSi2-SiC composite prepared by reactive sintering of powders

机译：粉末反应烧结制备的Mosi2和MoSi2-SiC复合材料的硬度和韧性

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Samples of monolithic MoSi2 and a MoSi2-SiC composite have been prepared by milling elemental powders followed by reactive hot pressing to dense materials with fine microstructures. Mechanical properties (hardness and toughness) have been deduced from hardness imprints and related to the scale of the microstructure. Toughness is increased somewhat in the monolithic intermetallic at fine grain size as well as by the addition of the SiC second phase. Cracking begins always by intergranular decohesion, which seems little affected by the grain size or the presence of the second phase, and subsequently becomes transgranular in MoSi2 and mixed transgranular-intergranular in the MoSi2-SiC composite. The propagation of such longer cracks depends on the microstructure, with both finer matrix grain size and the presence of SiC leading to more difficult crack growth.

机译：整体式MoSi2和MoSi2-SiC复合材料的样品是通过研磨元素粉末，然后将其反应热压成具有精细微观结构的致密材料而制备的。机械性能（硬度和韧性）已经从硬度印记推导出来，并且与微观结构的规模有关。在单晶粒金属间化合物中，在细晶粒尺寸下以及通过添加SiC第二相，韧性有所提高。裂纹总是由晶间的去内聚作用开始的，这似乎不受晶粒尺寸或第二相的影响，然后在MoSi2中变成跨晶的，而在MoSi2-SiC复合材料中变成跨晶-晶间的。这种较长裂纹的扩展取决于微观结构，同时基体晶粒尺寸更细和SiC的存在都会导致裂纹扩展更加困难。

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Morris David G.; Leboeuf M.; Muñoz-Morris Mª Antonia;
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年度 2013
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Hardness and toughness of Mosi2 and MoSi2-SiC composite prepared by reactive sintering of powders

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