Publication detail

Towards the Understanding of Lubrication Mechanisms in Total Knee Replacements – Part II: Numerical Modeling

MARIAN, M. ORGELDINGER, C. ROTHAMMER, R. NEČAS, D. VRBKA, M. KŘUPKA, I. HARTL, M. WIMMER, M.A. TREMMEL, S. WARTZACK, S.

English title

Towards the Understanding of Lubrication Mechanisms in Total Knee Replacements – Part II: Numerical Modeling

Type

WoS Article

Language

en

Original abstract

Total knee replacements are an effective surgical treatment to restore the function of the knee. For an adequate design, knowledge about stresses and lubrication conditions is vital. Part II proposes a fully-coupled transient 3D model for the soft elastohydrodynamically lubricated contact based upon the generalized Reynolds equation and Finite Element Method while Part I of this study focused on experimental observations. Within the scope of this contribution, a numerical model is presented and validated with experimental data. Good agreement between model predictions and experimental data was found. A strong influence of fluid and geometry assumptions and transient effects were found. Besides, it was demonstrated that the rheological synovial fluid properties have a decisive role in the tribological behavior.

Keywords in English

Total knee replacement; Synovial joint tribology; Soft-elastohydrodynamic lubrication; Finite Element Method

Released

2021-04-01

Publisher

Elsevier

Location

Nizozemsko

ISSN

0301-679X

Journal

Tribology International

Volume

156

Number

4

Pages from–to

106809–106809

Pages count

12

BIBTEX


@article{BUT167650,
  author="MARIAN, M. and ORGELDINGER, C. and ROTHAMMER, R. and NEČAS, D. and VRBKA, M. and KŘUPKA, I. and HARTL, M. and WIMMER, M.A. and TREMMEL, S. and WARTZACK, S.",
  title="Towards the Understanding of Lubrication Mechanisms in Total Knee Replacements – Part II: Numerical Modeling",
  journal="Tribology International",
  year="2021",
  volume="156",
  number="4",
  pages="106809--106809",
  doi="10.1016/j.triboint.2020.106809",
  issn="0301-679X",
  url="https://www.sciencedirect.com/science/article/pii/S0301679X20306344"
}