Anastasiia Dmitrieva, Anastasiya Semenyuk, M. Klimova, Ilya Udin, Dmitrii Mukin, Artur Vildanov, S. Zherebtsov, O. Klimova-Korsmik, N. Stepanov
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Cracking Behavior of the ZhS6K Superalloy during Direct Laser Deposition with Induction Heating
For this work, the behavior of the ZhS6K alloy (Russian grade) in the process of direct laser deposition was investigated. Two samples, a “small” one (40 × 10 × 10 mm3) and “large” one (80 × 16 × 16 mm3), were fabricated with direct laser deposition. In both samples, the typical dual-phase γ/γ҆ microstructure with cuboidal shape of the γ҆ precipitates was observed. Both specimens revealed a similar tendency to continuous increasing in hardness from the bottom to the top associated with the refinement of γ҆ precipitates. The “small” sample was essentially crack-free, while the “large” one underwent extensive cracking. The possible effects of various factors, including thermal history, size, and shape of the gamma grains, on cracking behavior were discussed.
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