[Kovove materialy - Metallic materials]
    Wed - October 09, 2024 - 17:21 No. of hits : 1789552 ISSN 1338-4252 (online) ISSN 0023-432X (printed)
© Institute of Materials and Machine Mechanics, Slovak Academy of Sciences, Bratislava, Slovak Republic

VOLUME 50 (2012), Issue 6

The effect of creep exposure on microstructure stability and tensile properties of single crystal nickel based superalloy CMSX-4
LAPIN, J., PELACHOVÁ, T., GEBURA, M.
vol. 50 (2012), no. 6, pp. 379 - 386
DOI: 10.4149/km_2012_6_379

Abstract
The effect of creep exposure on microstructure stability and tensile properties of single crystal nickel-based superalloy CMSX-4 was studied. The single crystal samples with [001] crystallographic orientation were prepared by directional solidification in a Bridgman type of furnace. The creep exposure at 950 °C, applied stresses ranging from 60 to 230 MPa for various time up to 2000 h leads to the degradation of initial cuboidal γ/γ′ microstructure Coarsening of cuboidal γ′ (Ni3(Al,Ti)) precipitates, formation of transient microstructure consisting of coarsened γ′ precipitates and rafts and finally development of well rafted γ/γ′ microstructure is observed in the crept specimens. The width of the γ′ rafts decreases and their length increases with increasing applied stress and creep time. The width of the γ (Ni-based solid solution) channels increases with increasing applied stress and creep time. The creep rafting decreases the offset yield stress and ultimate tensile strength in the temperature from 20 to 950 °C when compared to those of the heat treated specimens with cuboidal γ/γ′ microstructure. On the other hand, creep rafting increases significantly room and high temperature ductility of the studied alloy. The creep fracture surfaces exhibit palisade morphology formed by propagation of cracks along (001) crystallographic planes in directions perpendicular and parallel to loading direction.

Key words
nickel alloys, single crystal superalloy, creep, microstructure, mechanical properties

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Full title of this journal is bilingual: Kovové materiály - Metallic Materials.
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