Controllable two-scale network architecture and enhanced mechanical properties of (Ti5Si3+TiBw)/Ti6Al4V composites

Y. Jiao; L. J. Huang; T. B. Duan; S. L. Wei; B. Kaveendran; L. Geng

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Controllable two-scale network architecture and enhanced mechanical properties of (Ti5Si3+TiBw)/Ti6Al4V composites

机译：可控的双尺度网络架构和增强的（TI5SI3 + TIBW）/ Ti6Al4V复合材料的机械性能

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Novel Ti6Al4V alloy matrix composites with a controllable two-scale network architecture were successfully fabricated by reaction hot pressing (RHP). TiB whiskers (TiBw) were in-situ synthesized around the Ti6Al4V matrix particles, and formed the first-scale network structure (FSNS). Ti5Si3 needles (Ti5Si3) precipitated in the β phase around the equiaxed α phase, and formed the secondary-scale network structure (SSNS). This resulted in increased deformation compatibility accompanied with enhanced mechanical properties. Apart from the reinforcement distribution and the volume fraction, the ratio between Ti5Si3 and TiBw fraction were controlled. The prepared (Ti5Si3?+?TiBw)/Ti6Al4V composites showed higher tensile strength and ductility than the composites with a one-scale microstructure, and superior wear resistance over the Ti6Al4V alloy under dry sliding wear conditions at room temperature.

机译：通过反应热压（RHP）成功地制造了具有可控两尺度网络架构的新型Ti6Al4V合金基质复合材料。 TIB晶须（TIBW）围绕Ti6Al4V矩阵粒子合成，形成了第一尺度网络结构（FSN）。 TI5SI3针（TI5SI3）在等式α相周围的β相中沉淀，并形成了二级尺度网络结构（SSN）。这导致伴随着增强的机械性能的变形相容性增加。除了增强分布和体积分数之外，控制Ti5Si3和Tibw分数之间的比例。所制备的（Ti5Si 3 + +ΔTIBW）/ Ti6Al4V复合材料显示出比具有单级微观结构的复合材料更高的抗拉强度和延展性，以及在室温下干燥滑动磨损条件下的Ti6Al4V合金上的优异耐磨性。

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《Scientific reports.》 |2016年第1期|共页
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Y. Jiao; L. J. Huang; T. B. Duan; S. L. Wei; B. Kaveendran; L. Geng;
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机译：Ti_5Si_3特性调整对具有两尺度网络结构的原位（Ti_5Si_3 + TiBw）/ Ti6Al4V复合材料的组织和拉伸性能的影响
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机译：（Ti5Si3 + TiBw）/ Ti6Al4V复合材料的可控两尺度网络架构和增强的机械性能
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机译：可控的双尺度网络架构和增强的（TI5SI3 + TIBW）/ Ti6Al4V复合材料的机械性能
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机译：可见激光诱导聚合形成丙烯酸酯网络的力学性能。 2.控制机械性能

Controllable two-scale network architecture and enhanced mechanical properties of (Ti5Si3+TiBw)/Ti6Al4V composites

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