Fatigue Characterization and Modeling of Additively Manufactured Hastelloy-X Superalloy

Quasi-static and fatigue behavior of laser powder-bed fusion Hastelloy X (LPBF-HX) specimens were studied. Tension–compression asymmetry was evaluated through a wide range of plastic strains. LPBF-HX specimens are not showing loading direction dependency during monotonic tension and compression test...

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Bibliographic Details
Published in:Journal of materials engineering and performance 2022-08, Vol.31 (8), p.6234-6245
Main Authors: Esmaeilizadeh, Reza, Keshavarzkermani, Ali, Faghih, Sasan, Behravesh, Behzad, Ali, Usman, Bonakdar, Ali, Jahed, Hamid, Toyserkani, Ehsan
Format: Article
Language:English
Subjects:
Characterization and Evaluation of Materials
Chemistry and Materials Science
Corrosion and Coatings
Engineering Design
Materials Science
Quality Control
Reliability
Safety and Risk
Technical Article
Tribology
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Summary:Quasi-static and fatigue behavior of laser powder-bed fusion Hastelloy X (LPBF-HX) specimens were studied. Tension–compression asymmetry was evaluated through a wide range of plastic strains. LPBF-HX specimens are not showing loading direction dependency during monotonic tension and compression tests at low plastic strains. LPBF-HX showed primary hardening under cyclic loading, followed by softening at high strain amplitudes in fully reversed strain-controlled fatigue tests. As the later softening masks the primary hardening, the half-life cyclic stress–strain curve coincides with the monotonic stress–strain curve. Various strain- and energy-based fatigue models were calibrated using the experimental strain-life data and were utilized to predict the fatigue life under different loading conditions with mean stresses. The Jahed–Varvani and Smith–Watson–Topper models showed good results. A fatigue design curve with 95% reliability and 90% confidence level was also constructed using the approximate Owen tolerance limit.
ISSN:1059-9495
1544-1024
DOI:10.1007/s11665-022-06595-w