Effects of anisotropy and material axis registration on computed stress and strain distributions in the turkey ulna

Vicente Ricos; Douglas R. Pedersen; Thomas D. Brown; Richard B. Ashman; Clinton T. Rubin; Richard A. Brand

doi:10.1016/0021-9290(95)00050-X

Effects of anisotropy and material axis registration on computed stress and strain distributions in the turkey ulna

Vicente Ricos
, Douglas R. Pedersen
, Thomas D. Brown
, Richard B. Ashman
, Clinton T. Rubin
, Richard A. Brand

Polytechnic University of Catalonia
University of Iowa
2432 Steindler Building
Scottish Rite Hospital for Children

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Finite element stress and strain distributions were studied parametrically for a curved long bone using several common material simplifications. A new technique is presented whereby local material axes conforming to local surface topology were automatically computed. Linearly elastic stress/strain solutions were evaluated as a function of the manner in which principal material directions are defined. The simplifications inherent in assumptions of local isotropy or globally registered transverse isotropy led to appreciably different solutions, particularly for some of the lesser-magnitude components of the strain tensor.

Original language	English
Pages (from-to)	261-267
Number of pages	7
Journal	Journal of Biomechanics
Volume	29
Issue number	2
DOIs	https://doi.org/10.1016/0021-9290(95)00050-X
State	Published - Feb 1996

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10.1016/0021-9290(95)00050-X

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title = "Effects of anisotropy and material axis registration on computed stress and strain distributions in the turkey ulna",

abstract = "Finite element stress and strain distributions were studied parametrically for a curved long bone using several common material simplifications. A new technique is presented whereby local material axes conforming to local surface topology were automatically computed. Linearly elastic stress/strain solutions were evaluated as a function of the manner in which principal material directions are defined. The simplifications inherent in assumptions of local isotropy or globally registered transverse isotropy led to appreciably different solutions, particularly for some of the lesser-magnitude components of the strain tensor.",

author = "Vicente Ricos and Pedersen, \{Douglas R.\} and Brown, \{Thomas D.\} and Ashman, \{Richard B.\} and Rubin, \{Clinton T.\} and Brand, \{Richard A.\}",

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AU - Ricos, Vicente

AU - Pedersen, Douglas R.

AU - Brown, Thomas D.

AU - Ashman, Richard B.

AU - Rubin, Clinton T.

AU - Brand, Richard A.

PY - 1996/2

Y1 - 1996/2

N2 - Finite element stress and strain distributions were studied parametrically for a curved long bone using several common material simplifications. A new technique is presented whereby local material axes conforming to local surface topology were automatically computed. Linearly elastic stress/strain solutions were evaluated as a function of the manner in which principal material directions are defined. The simplifications inherent in assumptions of local isotropy or globally registered transverse isotropy led to appreciably different solutions, particularly for some of the lesser-magnitude components of the strain tensor.

AB - Finite element stress and strain distributions were studied parametrically for a curved long bone using several common material simplifications. A new technique is presented whereby local material axes conforming to local surface topology were automatically computed. Linearly elastic stress/strain solutions were evaluated as a function of the manner in which principal material directions are defined. The simplifications inherent in assumptions of local isotropy or globally registered transverse isotropy led to appreciably different solutions, particularly for some of the lesser-magnitude components of the strain tensor.

UR - https://www.scopus.com/pages/publications/0030088020

U2 - 10.1016/0021-9290(95)00050-X

DO - 10.1016/0021-9290(95)00050-X

M3 - Article

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AN - SCOPUS:0030088020

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SP - 261

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JO - Journal of Biomechanics

JF - Journal of Biomechanics

IS - 2

ER -

Effects of anisotropy and material axis registration on computed stress and strain distributions in the turkey ulna

Abstract

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