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Stress-Induced Acceleration of the Growth of δ-Phase Precipitates in Ni-Based Superalloy GH4169 (IN718) and Its Effect on the Acceleration of Intergranular Cracking Under Creep Loading at Elevated Temperature

  • Published:2024 Issue: Volume: Page:369-378
  • ISSN:2367-1181
  • Container-title:The Minerals, Metals & Materials Series
  • language:en
  • Short-container-title:

Author:

Nakayama Ayumi,Wang Run-Zi,Suzuki Ken,Miura Hideo

Publisher

Springer Nature Switzerland

Reference16 articles.

1. Lu, Xudong, et al. (2014) Stress rupture properties of GH4169 superalloy. J of Materials Research and Technology 3.2: 107–113

2. Yifan Luo, et al., (2023) Acceleration mechanism of the degradation of the lifetime of Ni-base superalloys under creep-fatigue loading at elevated temperatures. J. of Fatigue & Fracture of Engineering Materials & Structures 46:14013 (17 pages)

3. Ayumi Nakayama, et al. (2023) Change of the Effective Strength of Grain Boundaries in Ni-base Superalloy GH4169 (IN718) under Creep-Fatigue Loadings at Elevated Temperatures”, Proc. of ASME IMECE2022 94701: V009T12A047 (8 pages)

4. Ken Suzuki, et al. (2023) Prediction of the Generation of Intergranular Cracking in Stainless Steels under Creep Loading at Elevated Temperatures. Proc. of ASME IMECE2022, 94891: V009T12A038 (7 pages)

5. Keisuke Hayashi, and Koji Kake (2010) Effect of Heat Treatment on Mechanical Properties of Inconel 718. J. of the Japan Institute of Metals 74.8: 501–507
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