Low Cycle Fatigue Failure Analysis of a Ni‐Based Single Crystal Superalloys at 850 °C

Zhang, Xuhui; Gao, Hangshan; Zhou, Wen; Zhang, Haocheng; Yue, Zhufeng

doi:10.1002/adem.201800647

Cited by 4 publications

(3 citation statements)

References 21 publications

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“…Due to the depletion of the near-surface area from γ´, the alloy strength decreases, providing a basis for microcrack nucleation. Also, more studies (Gopinath et al, 2009;Zhang et al, 2018) show that the fatigue crack nucleation has taken place beneath the surface where there are some internal defects, such as internal voids, inclusions and debris.…”

Section: Cyclic Stress-strain Behavior Of Uncoated Specimensmentioning

confidence: 99%

Comportamiento a fatiga de baja frecuencia del compuesto Rene®80 recubierto de aluminuro de platino cerca y por encima del DBTT

et al. 2021

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La superaleación Rene®80 a base de Ni se utiliza para fabricar álabes de turbinas de gas en motores a reacción. La vida útil de algunas palas de turbina de motores a reacción está limitada por la fatiga de baja frecuencia y esta propiedad se ha visto fuertemente afectada por los revestimientos. La temperatura de transición de dúctil a frágil (DBTT) es el factor más importante que afecta las propiedades mecánicas de las aleaciones recubiertas. En este estudio, se evaluó el comportamiento de fatiga a alta temperatura y baja frecuencia del compuesto Rene®80 sin recubrimiento y recubierto con aluminuro de platino (Pt-Al) a temperaturas de 871 °C (cerca del DBTT) y 982 °C (por encima del DBTT). Los resultados de las pruebas de fatiga, en condiciones de deformación controlada a 871 °C para R = 0 y una tasa de deformación de 2×10-3 s-1, en un intervalo de deformación total de 0,8%, mostraron una disminución de la resistencia a la fatiga de las muestras recubiertas de aproximadamente un 14%, en comparación con las no recubiertas. Sin embargo, el aumento de la temperatura de prueba de 871 °C a 982 °C, condujo a un aumento en el comportamiento a fatiga de baja frecuencia del compuesto Rene®80 recubierto en aproximadamente un 10% en comparación con las muestras sin recubrir.

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Section: Cyclic Stress-strain Behavior Of Uncoated Specimensmentioning

confidence: 99%

Comportamiento a fatiga de baja frecuencia del compuesto Rene®80 recubierto de aluminuro de platino cerca y por encima del DBTT

et al. 2021

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“…Rai et al 7 investigated the dislocation and cyclic plastic deformation behavior of a nickel base superalloy through extensive scanning electron microscope (SEM) and transmission electron microscope (TEM) examinations. The low‐cycle fatigue behavior of NBSX at elevated temperature has been widely investigated experimentally 8–15 . Ravi Chandran 16,17 presented an S–N curve model employing the Gumbel distribution.…”

Section: Introductionmentioning

confidence: 99%

“…The low-cycle fatigue behavior of NBSX at elevated temperature has been widely investigated experimentally. [8][9][10][11][12][13][14][15] Ravi Chandran 16,17 presented an S-N curve model employing the Gumbel distribution. Vacchieri et al 18 used the safe life approach to estimate the fatigue life of a gas turbine first-stage blade.…”

Section: Introductionmentioning

confidence: 99%

The porosity distribution of nickel‐base single‐crystal superalloy DD5 and its fatigue life property

Susmel

Jiang³

et al. 2023

Fatigue Fract Eng Mat Struct

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The porosity of nickel-base single crystals (NBSXs) is still an unavoidable casting problem that has a significant influence on the fatigue life of NBSXs. In order to quantify the porosity effect, a porosity-distribution-related life prediction method is proposed in this paper. The porosity size in a NBSX was measured, and the size distribution was regressed. The results show that the porosity size that is characterized by Feret's diameter follows a modified logarithmic normal distribution. The relation among the applied stress, porosity size, and lifetime is expressed by using the proposed method. The disperse band of S-N curve is investigated based on the probability distribution of the porosity size. The results show that the predicted S-N curve agrees well with the experimental data.

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Low-cycle fatigue behavior of K416B Ni-based superalloy at 650 °C

Xie

Shu

Hou

et al. 2021

J. Cent. South Univ.

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Low Cycle Fatigue Failure Analysis of a Ni‐Based Single Crystal Superalloys at 850 °C

Cited by 4 publications

References 21 publications

Comportamiento a fatiga de baja frecuencia del compuesto Rene®80 recubierto de aluminuro de platino cerca y por encima del DBTT

Comportamiento a fatiga de baja frecuencia del compuesto Rene®80 recubierto de aluminuro de platino cerca y por encima del DBTT

The porosity distribution of nickel‐base single‐crystal superalloy DD5 and its fatigue life property

Low-cycle fatigue behavior of K416B Ni-based superalloy at 650 °C

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