Abstract
The phase transformations can proceed not only between bulk phases but also in free surfaces, grain boundaries and interphase boundaries. In this review we consider the grain boundary phase transformations in Cu- and Al-based alloys. In particular, among those transformations are the transitions between compete and incomplete grain boundary wetting. The wetting phase can be either liquid or solid. If the wetting phase is solid, the portion of wetted grain boundaries can increase also with decreasing temperature. The transition itself can be discontinuous (of the first order) or continous (of the second order). The thin layers of grain boundary phases (called also the grain boundary complexions) can occur in the conditions (temperature, pressure and concentration) where only one volume phase can exist. The phenomenon of the pseudo-incomplete (or pseudo-partial) grain boundary wetting is also discussed. In this case the non-zero grain boundary contact angle coexists with thin layer of grain boundary phase. The new lines of respective grain boundary phase transformations appear in the conventional phase diagrams for three-dimensional phases. The grain boundary phase transitions can strongly influence the properties of grain boundaries themselves and those of polycrystals as a whole. For example, the presence of grain boundary layers can increase the plasticity (if the phase is ductile) or decrease it (of the grain boundary phase is brittle). The influence of grain boundary phase transitions increases with decreasing grain size and becomes critical in nanograined materials.
Highlights
Thecan phase transformations can proceed between bulk phases and in free surfaces, grain boundaries (GBs) and interphase boundaries (IBs)
In many cases the GB phase transformations take place at high temperatures, and the samples have to be quenched down to room temperature (RT) in order to be studied by high-resolution transmission electron microcopy (HRTEM) or 3D-atom probe tomography (APT)
We observed that the variety of GB wetting-related phase transformations is quite broad
Summary
Thecan phase transformations can proceed between bulk phases and in free surfaces, grain boundaries (GBs) and interphase boundaries (IBs). It is relatively easy to observe the GB phase transitions which take place in the two-phase (or multiphase) regions of the bulk phase diagrams, like for example the GB wettingdewetting phase transformations [8, 28 – 32]. In this case the thickness of a GB layer of a second (wetting) phase is macroscopic, reaches several microns and it can be observed even in the light microscope [33 – 35]. Such IGFs are quite thin, and only recently appeared the reliable methods of their investigation like high-resolution transmission electron microcopy (HRTEM) in the aberration-corrected microscopes [17, 47, 49 – 52] as well as three-dimensional atom probe tomography (APT) [10, 48, 53, 54]
Sign-in/Register to view highlights & summary 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 callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
