4.7 Article

Directional coalescence of γ' precipitates during long time aging of CoNiAlW superalloy

Journal

MATERIALS CHARACTERIZATION
Volume 196, Issue -, Pages -

Publisher

ELSEVIER SCIENCE INC
DOI: 10.1016/j.matchar.2022.112597

Keywords

CoNiAlW superalloy; Coalescence; ?' precipitates; Lattice misfit; Elastic strain energy; positive misfit

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The abnormal directional growth and coalescence of the gamma' phase in CoNiAlW superalloy during aging without applied stress were investigated. Microstructural evaluations showed that close precipitates coalesced over time. Elastic strain energy was identified as the driving force behind the coalescence, which was confirmed by reducing the lattice misfit between gamma and gamma' phases. A mechanism for the directional coalescence of gamma' precipitates was proposed, and the critical channel width for coalescence was described in terms of lattice misfit, interfacial energy, and volumetric free energy. The results revealed that the extent of coalescence decreases with decreasing lattice misfit in this positively misfit superalloy.
The abnormal directional growth or coalescence of the strengthening gamma' phase in CoNiAlW superalloy during aging at 900 degrees C in the absence of applied stress have been investigated in this research. The microstructural evaluations depicted that gamma' precipitates which were close enough together coalesced during long time aging. This abnormal directional growth has not been observed, previously. The elastic strain energy was recognized as the governing driving force for gamma' precipitates coalescence. This was verified by adding Cr atoms to the superalloy that caused a reduction in the lattice misfit between gamma and gamma' phases. The mechanism of directional coalescence of gamma' precipitates is proposed in this research. Furthermore, the critical gamma channel width (h*), that gamma' precipitates coalescence occurs for values smaller than h*, in terms of the lattice misfit (delta), the interfacial energy (S gamma/gamma '), and the volumetric free energy for the formation of gamma' precipitate (Delta Gv) was described. The results show that in this superalloy with positive misfit, the extent of coalescence of gamma' precipitates decreases with decreasing lattice misfit.

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