Analytical and Numerical Crack Growth Analysis of 1:3 Scaled Railway Axle Specimens

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Analytical and Numerical Crack Growth Analysis of 1:3 Scaled Railway Axle Specimens. / Simunek, David; Leitner, Martin; Maierhofer, Jürgen et al.
in: Metals : open access journal , Jahrgang 9.2019, Nr. 2, 03.02.2019, S. 184.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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@article{668e8c7d576044be9feb49466d493273,
title = "Analytical and Numerical Crack Growth Analysis of 1:3 Scaled Railway Axle Specimens",
abstract = "This paper deals with experimental fatigue crack propagation in rotating bending loaded round bar specimens as well as an analytical and numerical analysis of the residual lifetime. Constant amplitude (CA) load tests are performed with the surface crack length being evaluated using an optical measurement system. Fracture surfaces are microscopically analyzed to determine crack growth in depth as well as the crack shape. In spite of identical testing conditions, the experimental results show some scatter in residual lifetime, which is mainly caused by different residual stress states. Although X-ray residual stress measurements reveal only minor values, a superposition of the residual stress state with the load-induced stress leads to a significant impact on the residual lifetime calculations, which explains the experimental scatter. Numerical analyses are conducted to consider the residual stress state and their effect on crack propagation by different options. Considering the residual stress distribution in depth within the residual lifetime assessment, the deviation to the most conservative experiment is reduced from +48% to +2%. In conclusion, the results in this paper highlight that it is of utmost importance to consider local residual stress conditions in the course of a crack propagation analysis in order to properly assess the residual lifetime.",
author = "David Simunek and Martin Leitner and J{\"u}rgen Maierhofer and Hans-Peter G{\"a}nser and Reinhard Pippan",
year = "2019",
month = feb,
day = "3",
doi = "10.3390/met9020184",
language = "English",
volume = "9.2019",
pages = "184",
journal = "Metals : open access journal ",
issn = "2075-4701",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "2",

}

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TY - JOUR

T1 - Analytical and Numerical Crack Growth Analysis of 1:3 Scaled Railway Axle Specimens

AU - Simunek, David

AU - Leitner, Martin

AU - Maierhofer, Jürgen

AU - Gänser, Hans-Peter

AU - Pippan, Reinhard

PY - 2019/2/3

Y1 - 2019/2/3

N2 - This paper deals with experimental fatigue crack propagation in rotating bending loaded round bar specimens as well as an analytical and numerical analysis of the residual lifetime. Constant amplitude (CA) load tests are performed with the surface crack length being evaluated using an optical measurement system. Fracture surfaces are microscopically analyzed to determine crack growth in depth as well as the crack shape. In spite of identical testing conditions, the experimental results show some scatter in residual lifetime, which is mainly caused by different residual stress states. Although X-ray residual stress measurements reveal only minor values, a superposition of the residual stress state with the load-induced stress leads to a significant impact on the residual lifetime calculations, which explains the experimental scatter. Numerical analyses are conducted to consider the residual stress state and their effect on crack propagation by different options. Considering the residual stress distribution in depth within the residual lifetime assessment, the deviation to the most conservative experiment is reduced from +48% to +2%. In conclusion, the results in this paper highlight that it is of utmost importance to consider local residual stress conditions in the course of a crack propagation analysis in order to properly assess the residual lifetime.

AB - This paper deals with experimental fatigue crack propagation in rotating bending loaded round bar specimens as well as an analytical and numerical analysis of the residual lifetime. Constant amplitude (CA) load tests are performed with the surface crack length being evaluated using an optical measurement system. Fracture surfaces are microscopically analyzed to determine crack growth in depth as well as the crack shape. In spite of identical testing conditions, the experimental results show some scatter in residual lifetime, which is mainly caused by different residual stress states. Although X-ray residual stress measurements reveal only minor values, a superposition of the residual stress state with the load-induced stress leads to a significant impact on the residual lifetime calculations, which explains the experimental scatter. Numerical analyses are conducted to consider the residual stress state and their effect on crack propagation by different options. Considering the residual stress distribution in depth within the residual lifetime assessment, the deviation to the most conservative experiment is reduced from +48% to +2%. In conclusion, the results in this paper highlight that it is of utmost importance to consider local residual stress conditions in the course of a crack propagation analysis in order to properly assess the residual lifetime.

UR - http://www.scopus.com/inward/record.url?scp=85062325575&partnerID=8YFLogxK

U2 - 10.3390/met9020184

DO - 10.3390/met9020184

M3 - Article

VL - 9.2019

SP - 184

JO - Metals : open access journal

JF - Metals : open access journal

SN - 2075-4701

IS - 2

ER -