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Space-framework method for three-dimensional solids

Yettram, A.L. / Robbins, K.

Space-framework model is derived to represent rectangular, prismatic, solid element which is assumed to be in state of uniform stress and which has any value of Poisson's ratio; model consists of edge beams having both axial and flexural rigidity and also diagonal members in each external face which have axial rigidity only; equivalent space-framework can therefore be established to simulate behavior of elastic, three-dimensional continuum under applied load or deformation, or both; method is applied to two examples to determine dependence of accuracy of idealization on mesh size and also to compare accuracy of solution with that obtained by conventional finite-element approach.

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Space-framework method for three-dimensional solids

Yettram, A.L. / Robbins, K.

Space-framework model is derived to represent rectangular, prismatic, solid element which is assumed to be in state of uniform stress and which has any value of Poisson's ratio; model consists of edge beams having both axial and flexural rigidity and also diagonal members in each external face which have axial rigidity only; equivalent space-framework can therefore be established to simulate behavior of elastic, three-dimensional continuum under applied load or deformation, or both; method is applied to two examples to determine dependence of accuracy of idealization on mesh size and also to compare accuracy of solution with that obtained by conventional finite-element approach.

Space-framework method for three-dimensional solids

Yettram, A.L. / Robbins, K.

Space-framework model is derived to represent rectangular, prismatic, solid element which is assumed to be in state of uniform stress and which has any value of Poisson's ratio; model consists of edge beams having both axial and flexural rigidity and also diagonal members in each external face which have axial rigidity only; equivalent space-framework can therefore be established to simulate behavior of elastic, three-dimensional continuum under applied load or deformation, or both; method is applied to two examples to determine dependence of accuracy of idealization on mesh size and also to compare accuracy of solution with that obtained by conventional finite-element approach.

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Titel:

Space-framework method for three-dimensional solids

Weitere Titelangaben:

ASCE -- Proc (J Eng Mechanics Div)

Beteiligte:

Yettram, A.L. (Autor:in) / Robbins, K. (Autor:in)

Erschienen in:

American Society of Civil Engineers Proceedings, Journal of the Engineering Mechanics Division ; 93

Erscheinungsdatum:

1967

Format / Umfang:

16 pages

Medientyp:

Aufsatz (Zeitschrift)

Format:

Print

Sprache:

Englisch

Schlagwörter:

Structural design

© Metadata Copyright Elsevier B. V. All rights reserved.

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