2020
DOI: 10.1007/s11661-020-05790-5
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The Mechanism of Grain Boundary Serration and Fan-Type Structure Formation in Ni-Based Superalloys

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Cited by 20 publications
(7 citation statements)
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“…However, we believe that the asymmetric composition and precipitation profiles observed at the grain boundary may indicate that they have formed in the solid state. To support this argument, we point out that this configuration parallels, although at a finer scale, the fan-type morphologies of γ+γ' compounds found at grain boundaries of several polycrystalline nickel based superalloys cooled down from super-solvus heat-treatment at a rate below 3 K.s -1 [42,43]. In addition, it can be noticed that the composition profiles of boron, carbon and zirconium measured at grain boundaries in the as-built microstructure (Figure 7a,b) follow similar trends as those predicted by Okamoto and Ågren [44] for the evolution of carbon behind a moving phase boundary affected by solute drag in steels.…”
Section: γ' Precipitates and The Enrichment Zone At Grain Boundaries ...supporting
confidence: 55%
“…However, we believe that the asymmetric composition and precipitation profiles observed at the grain boundary may indicate that they have formed in the solid state. To support this argument, we point out that this configuration parallels, although at a finer scale, the fan-type morphologies of γ+γ' compounds found at grain boundaries of several polycrystalline nickel based superalloys cooled down from super-solvus heat-treatment at a rate below 3 K.s -1 [42,43]. In addition, it can be noticed that the composition profiles of boron, carbon and zirconium measured at grain boundaries in the as-built microstructure (Figure 7a,b) follow similar trends as those predicted by Okamoto and Ågren [44] for the evolution of carbon behind a moving phase boundary affected by solute drag in steels.…”
Section: γ' Precipitates and The Enrichment Zone At Grain Boundaries ...supporting
confidence: 55%
“…Thermodynamically, the grain boundary motion which is accompanied by discontinuous and fan-type c¢ precipitation can be driven by the free energy change of decomposition of the supersaturated c matrix ahead of the advancing boundary. [16,31] This driving force is relevant in the present case, where there is little driving force from capillarity [i.e., due to the coarse-grained starting microstructure, shown in Figure 2(a)], and little driving force from stored strain energy [shown in Figure 2(d)].…”
Section: A C¢ Precipitation On Slow Coolingmentioning
confidence: 98%
“…Most recently, Atrazhev et al have given a detailed model for the formation of fan-type c¢ precipitates, and shown that grain boundary mobility is the key factor favoring their formation. [16] When grain boundary mobility is high, the formation of FTS behind moving boundaries is favored. When it is lower, grain boundary c¢ precipitates form and cause grain boundary serrations to develop.…”
Section: A C¢ Precipitation On Slow Coolingmentioning
confidence: 99%
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“…GB segregation of C and other impurities is also believed to act as nucleation sites for fan-shaped GB-γ 0 impacting the hot deformation behavior of cast and wrought Ni-based superalloys. [118][119][120][121][122] However, the detailed nucleation mechanism has not been experimentally verified yet. First-principles calculations studying GB segregation of C in Ni or Ni-based superalloys are less frequently found when compared to B.…”
Section: Segregationmentioning
confidence: 99%