Local strain redistribution in a coarse-grained nickel-based superalloy subjected to shot-peening, fatigue or thermal exposure investigated using synchrotron X-ray Laue microdiffraction
Author:
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Link
http://link.springer.com/article/10.1007/s10853-018-2144-4/fulltext.html
Reference48 articles.
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2. Antolovich D (2015) Microstructural aspects of fatigue in Ni-base superalloys. Philos Trans R Soc A 373(2038):1–36
3. Chaudonneret M (1993) A simple and efficient multiaxial fatigue damage model for engineering applications of macro-crack initiation. J Eng Mater Technol 115 115(4):373–379
4. Boittin G, Locq D, Rafray A, Caron P, Kanouté P, Gallerneau F, Cailletaud G (2012) Influence of $$\gamma ^{\prime }$$ γ ′ precipitate size and distribution on LCF behavior of a PM disk superalloy. In: Superalloys 2012. Wiley, pp 167–176
5. Korsunsky A (2005) The modelling of residual stresses due to surface peening using eigenstrain distributions. J Strain Anal Eng 40(8):817–824
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1. Research Progress on Surface Impact Strengthening Mechanisms and Application of Nickel-Based Superalloys;ACTA METALL SIN;2023
2. The influence of compressive residual stress on metallurgical and mechanical properties of materials exposed to shot peening: a review;Canadian Metallurgical Quarterly;2023-05-19
3. Indexing of superimposed Laue diffraction patterns using a dictionary–branch–bound approach;Journal of Applied Crystallography;2022-08-24
4. High-resolution digital image correlation study of the strain localization during loading of a shot-peened RR1000 nickel-based superalloy;Acta Materialia;2021-11
5. A Current Status of the Residual Stress Characterization by the Crystal Lattice Strain (Diffraction) Method;Journal of Structural Chemistry;2020-02
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