Abstract
Ni-Al-Mo based alloys can be used as materials for high temperature applications. They can be prepared by various techniques such as an electron beam zone melting, which allows us to obtain the alloys with a directionally solidified structure and unique properties. A plasma-melted Ni-Mo master alloy was used for the preparation of the experimental alloys. Ni-Al-Mo alloys were melted in an induction furnace and then cast centrifugally in the form of bars. These bars were then re-melted in the electron beam zone furnace. The structure of these alloys was multi-phase. The structure was formed by the phases Ni3(Al,Mo) and (Ni) with variable content of molybdenum. The structure also contained particles rich in molybdenum (Mo, MoNi). The alloys were submitted to the compression tests at a temperature of 800 °C. The yield strength of alloys achieved the value of approx. 800 MPa. The different molybdenum content affected the values of the maximal flow stress. The alloys with higher molybdenum content showed higher maximal flow stress, namely approx. 1300 MPa. The results show that these alloys are very promising for the production of structural components operating at elevated temperatures.
Highlights
Ni-Al-Mo based alloys can be used as materials for high temperature applications.Nickel super alloys are widely used on an industrial scale, whereas Ni3 Al-based alloys are used less frequently
Figure
Castings were prepared by the method of induction melting and centrifugal casting, which were subsequently re-melted by the method of electron zone melting with a suspended zone
Summary
Nickel super alloys are widely used on an industrial scale, whereas Ni3 Al-based alloys are used less frequently These alloys, such as IC50, IC221M or IC6SX, can be used for less demanding applications. Their advantage is lower density and sufficient corrosion resistance [1,2,3] They can be prepared using various techniques based on the melting and casting of initial pure metals or master alloys followed by the special re-melting process such as electron beam floating zone melting (EBFZM). This process enables us to obtain the directionally solidified structure of these alloys showing the unique properties compared to the cast state.
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