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An investigation of fatigue damage development under complete contact fretting test conditions

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An investigation of fatigue damage development under complete contact fretting test conditions. / Holopainen, Sami; Juoksukangas, Janne; Kouhia, Reijo; Lehtovaara, Arto; Saksala, Timo.

julkaisussa: Rakenteiden mekaniikka, Vuosikerta 49, Nro 3, 30.12.2016, s. 151-159.

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Bibtex - Lataa

@article{82d0423f70e84db9bcdff3dc845e2c9b,
title = "An investigation of fatigue damage development under complete contact fretting test conditions",
abstract = "In this paper evolution equation based multiaxial fatigue model is applied to the analysis of fretting fatigue of a cantilever test specimen made of EN 10083-1 steel. The adopted high-cycle fatigue model is based on the concept of evolving endurance surface and damage evolution equation. For the endurance surface a simple linear relationship between the hydrostatic stress and the reduced deviatoric stress is used. It is observed that such a simple relationship does not model the fretting fatigue phenomena properly due to the high compressive hydrostatic stress state at the contact region. Also stress gradient effects should be taken into account in a more rigorous manner.",
keywords = "fretting fatigue, high-cycle fatigue model, endurance surface",
author = "Sami Holopainen and Janne Juoksukangas and Reijo Kouhia and Arto Lehtovaara and Timo Saksala",
year = "2016",
month = "12",
day = "30",
language = "English",
volume = "49",
pages = "151--159",
journal = "Rakenteiden mekaniikka",
issn = "0783-6104",
publisher = "Rakenteiden Mekanikan Seura ry",
number = "3",

}

RIS (suitable for import to EndNote) - Lataa

TY - JOUR

T1 - An investigation of fatigue damage development under complete contact fretting test conditions

AU - Holopainen, Sami

AU - Juoksukangas, Janne

AU - Kouhia, Reijo

AU - Lehtovaara, Arto

AU - Saksala, Timo

PY - 2016/12/30

Y1 - 2016/12/30

N2 - In this paper evolution equation based multiaxial fatigue model is applied to the analysis of fretting fatigue of a cantilever test specimen made of EN 10083-1 steel. The adopted high-cycle fatigue model is based on the concept of evolving endurance surface and damage evolution equation. For the endurance surface a simple linear relationship between the hydrostatic stress and the reduced deviatoric stress is used. It is observed that such a simple relationship does not model the fretting fatigue phenomena properly due to the high compressive hydrostatic stress state at the contact region. Also stress gradient effects should be taken into account in a more rigorous manner.

AB - In this paper evolution equation based multiaxial fatigue model is applied to the analysis of fretting fatigue of a cantilever test specimen made of EN 10083-1 steel. The adopted high-cycle fatigue model is based on the concept of evolving endurance surface and damage evolution equation. For the endurance surface a simple linear relationship between the hydrostatic stress and the reduced deviatoric stress is used. It is observed that such a simple relationship does not model the fretting fatigue phenomena properly due to the high compressive hydrostatic stress state at the contact region. Also stress gradient effects should be taken into account in a more rigorous manner.

KW - fretting fatigue

KW - high-cycle fatigue model

KW - endurance surface

M3 - Article

VL - 49

SP - 151

EP - 159

JO - Rakenteiden mekaniikka

JF - Rakenteiden mekaniikka

SN - 0783-6104

IS - 3

ER -