The Ball-on-Three-Balls strength test for discs and plates: Extending and simplifying stress evaluation

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The Ball-on-Three-Balls strength test for discs and plates: Extending and simplifying stress evaluation. / Staudacher, Maximilian; Lube, Tanja; Supancic, Peter Hans.
in: Journal of the European Ceramic Society, Jahrgang 43.2023, Nr. 2, 02.2023, S. 648-660.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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@article{e908cfd07568444ea916673caa8cbd1f,
title = "The Ball-on-Three-Balls strength test for discs and plates: Extending and simplifying stress evaluation",
abstract = "The Ball-on-Three-Balls-test has proven to be an accurate and easy-to-use option for strength testing. However, the maximum stress must be calculated based on Finite-Element-Analysis results. For this purpose, a fitted function was already provided. This function is based on results which were generated under the assumption of punctiform load introduction. Deviations from these conditions occur through an increase in contact-area between the loading ball and the specimen, large specimen deformations, friction, or plastic deformation of the balls. These non-linear effects are investigated by Finite-Element-Analysis for a wide range of specimens. It is shown that the maximum stress is sensitive to the area of contact between the loading ball and the specimen. Furthermore, thin specimens are subject to large deformations, which significantly decrease the maximum stress. Therefore, a revised fitted function is derived. For specimens with exceptional geometries, non-linear effects are considered with correction factors added to the new fitted function.",
author = "Maximilian Staudacher and Tanja Lube and Supancic, {Peter Hans}",
note = "Publisher Copyright: {\textcopyright} 2022 The Authors",
year = "2023",
month = feb,
doi = "https://doi.org/10.1016/j.jeurceramsoc.2022.09.047",
language = "English",
volume = "43.2023",
pages = "648--660",
journal = "Journal of the European Ceramic Society",
issn = "0955-2219",
publisher = "Elsevier",
number = "2",

}

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TY - JOUR

T1 - The Ball-on-Three-Balls strength test for discs and plates

T2 - Extending and simplifying stress evaluation

AU - Staudacher, Maximilian

AU - Lube, Tanja

AU - Supancic, Peter Hans

N1 - Publisher Copyright: © 2022 The Authors

PY - 2023/2

Y1 - 2023/2

N2 - The Ball-on-Three-Balls-test has proven to be an accurate and easy-to-use option for strength testing. However, the maximum stress must be calculated based on Finite-Element-Analysis results. For this purpose, a fitted function was already provided. This function is based on results which were generated under the assumption of punctiform load introduction. Deviations from these conditions occur through an increase in contact-area between the loading ball and the specimen, large specimen deformations, friction, or plastic deformation of the balls. These non-linear effects are investigated by Finite-Element-Analysis for a wide range of specimens. It is shown that the maximum stress is sensitive to the area of contact between the loading ball and the specimen. Furthermore, thin specimens are subject to large deformations, which significantly decrease the maximum stress. Therefore, a revised fitted function is derived. For specimens with exceptional geometries, non-linear effects are considered with correction factors added to the new fitted function.

AB - The Ball-on-Three-Balls-test has proven to be an accurate and easy-to-use option for strength testing. However, the maximum stress must be calculated based on Finite-Element-Analysis results. For this purpose, a fitted function was already provided. This function is based on results which were generated under the assumption of punctiform load introduction. Deviations from these conditions occur through an increase in contact-area between the loading ball and the specimen, large specimen deformations, friction, or plastic deformation of the balls. These non-linear effects are investigated by Finite-Element-Analysis for a wide range of specimens. It is shown that the maximum stress is sensitive to the area of contact between the loading ball and the specimen. Furthermore, thin specimens are subject to large deformations, which significantly decrease the maximum stress. Therefore, a revised fitted function is derived. For specimens with exceptional geometries, non-linear effects are considered with correction factors added to the new fitted function.

U2 - https://doi.org/10.1016/j.jeurceramsoc.2022.09.047

DO - https://doi.org/10.1016/j.jeurceramsoc.2022.09.047

M3 - Article

VL - 43.2023

SP - 648

EP - 660

JO - Journal of the European Ceramic Society

JF - Journal of the European Ceramic Society

SN - 0955-2219

IS - 2

ER -