Publication detail

Stress analysis of the hip joint endoprosthesis with shape deflections

FUIS, V., NÁVRAT, T.

Original Title

Stress analysis of the hip joint endoprosthesis with shape deflections

English Title

Stress analysis of the hip joint endoprosthesis with shape deflections

Type

journal article - other

Language

en

Original Abstract

The paper deals with the problems of ceramic head of hip joint endoprosthesis destructions, and with assessing the impact of shape deflections of conical surfaces on the probability of this failure. Concerned are shape deflections from the ideal conical surfaces of the stem and the head of the endoprosthesis, which - when the head is put on the stem and the endoprosthesis loaded - form a contact configuration. The shape deflections may be modelled at the macro-level - this concerns model shape inaccuracies such as deflection from the nominal degree of taper, ovality, and their combination, or, possibly, at the micro-level - when the stochastic distribution of unevenness on the contact areas is respected. The problem of stress in ceramic heads was solved using the algorithm of the finite element method for spatial contact tasks, and the Weibull probability model was used for solving the problem of head cohesion failure probability. In the paper are presented and analysed the results of solution of the micro-level shape deflections, obtained from measurements made on the cones of stems and heads.

English abstract

The paper deals with the problems of ceramic head of hip joint endoprosthesis destructions, and with assessing the impact of shape deflections of conical surfaces on the probability of this failure. Concerned are shape deflections from the ideal conical surfaces of the stem and the head of the endoprosthesis, which - when the head is put on the stem and the endoprosthesis loaded - form a contact configuration. The shape deflections may be modelled at the macro-level - this concerns model shape inaccuracies such as deflection from the nominal degree of taper, ovality, and their combination, or, possibly, at the micro-level - when the stochastic distribution of unevenness on the contact areas is respected. The problem of stress in ceramic heads was solved using the algorithm of the finite element method for spatial contact tasks, and the Weibull probability model was used for solving the problem of head cohesion failure probability. In the paper are presented and analysed the results of solution of the micro-level shape deflections, obtained from measurements made on the cones of stems and heads.

Keywords

Computational modelling, hip joint endoprosthesis, micro-unevenness modelling, stress and failure probability analyses, Weibull weakest link theory

RIV year

2005

Released

20.09.2005

Publisher

Engineering Academy of the Czech Republic

Location

Brno

ISBN

1210-2717

Periodical

Inženýrská mechanika - Engineering Mechanics

Year of study

12

Number

5

State

CZ

Pages from

323

Pages to

329

Pages count

7

Documents

BibTex


@article{BUT46124,
  author="Vladimír {Fuis} and Tomáš {Návrat}",
  title="Stress analysis of the hip joint endoprosthesis with shape deflections",
  annote="The paper deals with the problems of ceramic head of hip joint endoprosthesis destructions, and with assessing the impact of shape deflections of conical surfaces on the probability of this failure. Concerned are shape deflections from the ideal conical surfaces of the stem and the head of the endoprosthesis, which - when the head is put on the stem and the endoprosthesis loaded - form a contact configuration. The shape deflections may be modelled at the macro-level - this concerns model shape inaccuracies such as deflection from the nominal degree of taper, ovality, and their combination, or, possibly, at the micro-level - when the stochastic distribution of unevenness on the contact areas is respected. The problem of stress in ceramic heads was solved using the algorithm of the finite element method for spatial contact tasks, and the Weibull probability model was used for solving the problem of head cohesion failure probability. In the paper are presented and analysed the results of solution of the micro-level shape deflections, obtained from measurements made on the cones of stems and heads.",
  address="Engineering Academy of the Czech Republic",
  booktitle="Engineering Mechanics",
  chapter="46124",
  institution="Engineering Academy of the Czech Republic",
  journal="Inženýrská mechanika - Engineering Mechanics",
  number="5",
  volume="12",
  year="2005",
  month="september",
  pages="323",
  publisher="Engineering Academy of the Czech Republic",
  type="journal article - other"
}