用钴和镍添加剂机械合金化钛铝涂层形成

Sergey Pyachin, N. Vlasova, M. Kulik, V. Krutikova
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摘要

采用机械合金化的方法,在真空中进一步高温熟化,制备了含钴、镍添加剂的TiAl钛铝化物涂层。采用行星式球磨机在VT1-0钛合金基体上涂覆涂层,并将其置于装有金属粉末的磨杯中。研究了生长动力学,测量了涂层厚度。金属粉末沉积在钛基板上的特定速率为4.6至11g /(min•m2)。沉积层的平均厚度为70- 180mkm。对机械合金涂层的组成和显微组织进行了深入的研究。为此,使用了x射线衍射法和光栅电子显微镜。确定了涂层的内部结构是不均匀的。在沉积层热处理后,金属相互渗透首先发生铝到钛、钴或镍颗粒中。涂层是一种复合材料,它的基础是铝钛的铝化物,作为夹杂物有其他金属间化物,钛,钴或镍,也有氧化铝。镀层显微硬度平均值比钛基体高1.2 ~ 3.4倍。在真空热处理后,TiAl-5%Co和TiAl-10%Co涂层的显微硬度最高(> 6.5 GΠa)。退火后的VT1-0钛合金显微硬度降低了1.3倍,反之则相反。
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FORMATION BY MECHANICAL ALLOYING Ti-Al COATINGS WITH COBALT AND NICKEL ADDITIVES
The work is dedicated to the formation of TiAl titanium aluminide coatings with cobalt and nickel additives by means of the method of mechanical alloying with the further maturing at high temperature in vacuum. Coatings were applied with the use of the ball mill of the planetary type upon VT1-0 titanium alloy substrate which were placed in the mill cup filled with metal powders. There is studied growth kinetics, a coating thickness is measured. A specific rate of metal powder sedimentation upon a titanium substrate makes from 4.6 to 11 g/(min•m2). Deposited layers have a mean thickness 70-180 mkm. There are studied thoroughly compositions and microstructure of mechanical-alloyed coatings. For that there were used methods of X-ray diffractometry and raster electronic microscopy. It is defined that the inner structure of coatings is heterogeneous. After deposited layer thermal treatment a metal interpenetration takes place first aluminum into particles of titanium, cobalt or nickel. Coatings are composite material the basis of which makes aluminide of RiAl titanium, and as inclusions there are other inter-metallides, titanium, cobalt or nickel and also aluminum oxide. Mean values of micro-hardness of coatings obtained are 1.2 - 3.4 times higher than of titanium substrate. The highest values of micro-hardness (more than 6.5 GΠa) after thermal treatment in vacuum are observed in TiAl-5%Co and TiAl-10%Co coatings. Micro-hardness of VT1-0 titanium alloy after annealing, vice versa, decreases by 1.3 times.
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