A concept to improve hardness and thermal stability of unstable multilayer alloys is presented based on control of the coherency strain such that the driving force for decomposition is favorably altered. Cathodic arc evaporated cubic TiCrAlN/Ti 1−x Cr x N multilayer coatings are used as demonstrators. Upon annealing, the coatings undergo spinodal decomposition into nanometer-sized coherent Ti- and Al-rich cubic domains which is affected by the coherency strain. In addition, the growth of the domains is restricted by the surrounding TiCrN layer compared to a non-layered TiCrAlN coating which together results in an improved thermal stability of the cubic structure. A significant hardness increase is seen during decomposition for the case with high coherency strain while a low coherency strain results in a hardness decrease for high annealing temperatures. The metal diffusion paths during the domain coarsening are affected by strain which in turn is controlled by the Cr-content (x) in the Ti 1−x Cr x N layers. For x = 0 the diffusion occurs both parallel and perpendicular to the growth direction but for x > =0.9 the diffusion occurs predominantly parallel to the growth direction. Altogether this study shows a structural tool to alter and fine-tune high temperature properties of multicomponent materials.
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机译:基于对相干应变的控制,提出了改善不稳定多层合金的硬度和热稳定性的概念,从而有利地改变了分解的驱动力。阴极电弧蒸发的立方TiCrAlN / Ti 1-x Cr x N多层涂层用作演示剂。退火后,涂层经历旋节线分解,成为受相干应变影响的纳米级相干富含Ti和Al的立方晶域。另外,与非层状TiCrAlN涂层相比,畴的生长受到周围的TiCrN层的限制,这一起导致立方结构的改进的热稳定性。对于高相干应变的情况,在分解过程中会看到明显的硬度增加,而对于高退火温度,低相干应变会导致硬度降低。畴粗化过程中的金属扩散路径受到应变的影响,而应变又受Ti 1-x Cr x N层中Cr含量(x)的控制。对于x = 0,扩散既平行于生长方向也垂直于生长方向发生,但是对于x> = 0.9,扩散主要与生长方向平行。总体而言,这项研究显示了一种改变和微调多组分材料高温性能的结构工具。
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