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Fatigue crack growth in nickel-based superalloys at elevated temperatures

  • Published:2011-05 Issue:5 Volume:32 Page:2710-2716
  • ISSN:0261-3069
  • Container-title:Materials & Design
  • language:en
  • Short-container-title:Materials & Design

Author:

Abbadi M.,Hähner P.,Belouettar S.,Zenasni M.

Publisher

Elsevier BV

Subject

Applied Mathematics,General Mathematics

Reference16 articles.

1. The intercrystalline cohesion of metals;Rosenhain;J Inst Metal,1913

2. Tensile strain measurement using mechanical and in situ optical techniques in bi-metallic Ni-base superalloys;Abbadi;Measurement,2007

3. CEA-SEMT. Online CASTEM help menu; 2010. .

4. Calibrating the electric potential method for studying slow crack growth;Johnson;Mater Res Stand,1965

5. Application of the electrical potential method to crack length measurements using Johnson’s formula;Schwalbe;J Test Eval,1981

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1. Size effects on metal fatigue;Size Effects in Engineering Mechanics, Materials Science, and Manufacturing;2024

2. High cycle fatigue behavior of inertia friction welded joint of FGH96 alloy at high temperature;International Journal of Fatigue;2023-11

3. Influence of temperature on the R‐effect for the fatigue crack growth of nickel‐base superalloy GH4169;Fatigue & Fracture of Engineering Materials & Structures;2022-08-10

4. Microstructural and geometrical size effects on the fatigue of metallic materials;International Journal of Mechanical Sciences;2022-03

5. IN100 Ni-based superalloy fabricated by micro-laser aided additive manufacturing: Correlation of the microstructure and fracture mechanism;Materials Science and Engineering: A;2020-06
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