Multiscale Fatigue Modelling of Metals, color print, paperback

$55.00

The book presents recent research regarding the multiscale modelling of metallic materials during different stages of fatigue.

Multiscale Fatigue Modelling of Metals
Ed. K.J. Dogahe
Materials Research Foundations Vol. 114
Publication Date 2022, 88 Pages
Print ISBN 978-1-64490-164-9  (release date January 2022)
ePDF ISBN 978-1-64490-165-6
DOI: 10.21741/9781644901656

Fatigue is one of the most important failure modes of engineering components. The book presents recent research regarding the multiscale modelling of metallic materials during different stages of fatigue. The various parameters that are involved in each stage are investigated.

Keywords
Fatigue Crack Initiation, Critical Resolved Shear Stress, Endurance Limit, Fatigue Crack Growth, Fatigue Lifetime Estimation, Multiscale Modelling, Paris Law, Tanaka-Mura Equation, Wöhler (S-N) Curve

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Table of Contents


Numerical Determination of Paris Law Constants for Carbon Steel Using a Two-Scale Model
M. Mlikota, S. Staib, S. Schmauder, Ž. Božić


Calculation of the Wöhler (S-N) Curve Using a Two-Scale Model
M. Mlikota, S. Schmauder, Ž. Božić


On the Critical Resolved Shear Stress and its Importance in the Fatigue Performance of Steels and other Metals with Different Crystallographic Structures
M. Mlikota, S. Schmauder


A Newly Discovered Relation between the Critical Resolved Shear Stress and the Fatigue Endurance Limit for Metallic Materials
M. Mlikota, S. Schmauder

About the Editor and Authors

Siegfried Schmauder
He studied Mathematics at the University of Stuttgart and worked from 1989 till 1994 at the Max-Planck-Institute for Metals Research. Since 1994 he is a Professor at the Institute for Materials Testing, Materials Science and Strength of Materials (IMWF), University of Stuttgart, Germany.

Kiarash J. Dogahe
He studied Materials Engineering and Nanotechnology at Plitecnico Di Milano, Italy. Since 2020, he is working as a scientific co-worker at the Institute for Materials Testing, Materials Science and Strength of Materials (IMWF), University of Stuttgart, Germany.

Marijo Mlikota
He studied Mechanical Engineering at the University of Zagreb, Coratia. From 2011 till 2021 he worked as a scientific co-worker at the Institute for Materials Testing, Materials Science and Strength of Materials (IMWF), University of Stuttgart, Germany. In 2020, he obtained his PhD at the University of Stuttgart.

Željko Božić
He studied Mechanical Engineering at the University of Zagreb, Croatia, and obtained his PhD in 1997 from Yokohama National University, Japan. Since 2011, he is a full Professor at the Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb.