Fatigue Damage in Metals: Numerical Methods-Based Approaches

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Anghel Cernescu (Politehnica Timisoara University, School of Mechanical Engineering, Romania)

Fatigue Damage in Metals

Numerical Methods-Based Approaches

Anghel Cernescu (Politehnica Timisoara University, School of Mechanical Engineering, Romania)

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English

Elsevier Science Publishing Co Inc
01 January 2025

Mechanical engineering; Materials science

econd Order FVM econd Order FVM

Edited by: Anghel Cernescu (Politehnica Timisoara University School of Mechanical Engineering Romania)
Imprint: Elsevier Science Publishing Co Inc
Country of Publication: United States
Dimensions: Height: 229mm, Width: 151mm,
ISBN: 9780128233412
ISBN 10: 0128233419
Pages: 350
Publication Date: 01 January 2025
Audience: Professional and scholarly , Undergraduate
Format: Paperback
Publisher's Status: Forthcoming

1. Load Transfer from Macro to Meso Scale Through Submodeling Technique 2. Critical Plane-Based Criteria for Multiaxial Fatigue Damage Prediction 3. Algorithms for Variable Amplitude Cycle Counting Methods in Uniaxial and Multiaxial Fatigue Life Prediction 4. Microstructural Modeling Techniques for Finite Element Method Simulations; Microstructure-sensitive Modeling of Material Cyclic Deformation 5. Theory, Application, and Implementation of Modified AbelKarim-Ohno Model for Uniaxial Fatigue Loading 6. Theory, Application, and Implementation of Modified AbdelKarim-Ohno Model for Multiaxial Fatigue Loading 7. Extended Finite Element Method for Fatigue Crack Initiation 8. Combined Continuum Damage Mechanics with XFEM for High Cycle Fatigue Crack Growth 9. Multi-temporal Numerical Scheme for High Cycle Fatigue Damage Simulation 10. Numerical Modeling of Multiaxial Notch Fatigue Problems 11. Numerical Modeling of Fatigue Crack Growth Under Multiaxial Loading Conditions 12. Numerical Strategy for Fatigue Damage Prediction of Mechanical Components- Case 1 13. Numerical Strategy for Fatigue Damage Prediction of Mechanical Components- Case 2 14. Python, A Common Language in FEM Simulations

Dr. Cernescu’s research has focused for the last 13 years on the area of fatigue damage analysis. He has authored more than 50 peer-reviewer papers, 1 book chapter, and 1 monograph. He has also completed 4 postdoctoral research programs in 4 different countries, one of which was a Marie Curie fellowship (through Cardiff University) funded by the European Union through Horizon 2020.