Abstract
Fabrication of Al-Al3Ti functionally graded materials (FGMs) under the centrifugal force has recently attracted some attention. The controlled compositional gradient of the fabricated FGMs, the low cost of the process, and the good mold filling, are the main advantages of the centrifugal method (CM). Using the conventional CM techniques such as the centrifugal solid-particle method and centrifugal in-situ method, FGMs rings with gradually distributed properties could be achieved. As a more practical choice, the centrifugal mixed-powder method (CMPM) was recently proposed to obtain FGMs containing nano-particles selectively dispersed in the outer surface of the fabricated parts. However, if a control of the particles morphology, compound formulas or sizes, is desired, another CM technique is favored. As a development of CMPM, our novel reaction centrifugal mixed-powder method (RCMPM) has been presented. Using RCMPM, Al‑Al3Ti/Ti3Al FGMs with good surface properties and temperature controlled compositional gradient could be achieved. In this short review, this novel method will be discussed in detail and the effect of RCMPM processing temperature on the reinforcement particles morphology, size and distribution through the fabricated samples, will be reviewed.
Highlights
Graded materials (FGMs) are currently receiving a great degree of interest due to its special merits
We focus on the fabrication of Al-Al3Ti/Ti3Al Functionally graded materials (FGMs) using a new reaction centrifugal-mixed powder method (RCMPM)
In order to understand the difference between the centrifugal in situ method (CISM)-FGMs and centrifugal solid-particle method (CSPM)-FGMs properties, Al-Al3Ti FGMs rings containing Al3Ti platelet particles distributed in Al matrix are given as an example
Summary
Graded materials (FGMs) are currently receiving a great degree of interest due to its special merits. The gradient is controlled mainly by the difference in density between the matrix and the dispersed material According to their series of works, Watanabe et al [11,12,13] have classified the fabrication of FGMs using the centrifugal method into two categories based on the relation between the processing temperature and the liquidus temperature of the master alloy. If the liquidus temperature of the master alloy is significantly higher than the processing temperature as shown, the dispersed phase remains solid in a liquid matrix during the centrifugal casting This situation is similar to ceramic-dispersed FGMs, and this method is referred to as a centrifugal solid-particle method (CSPM) [14,15]. The experiments and results of our novel RCMPM will be explained
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
