A new finite element methodology of extended type for modelling fracture in elastodamaging bodies is presented. A soft layer, whose constant finite thickness is the characteristic length of the model, is embedded in an elastodamaging body. When the characteristic length is finite, an extended FE model with a fiite process zone is obtained. When the characteristic length vanishes, a crack model with a cohesive traction-separation law is recovered. Numerical tests for the first ad the second loading modes are presented.

AN XFEM-BASED METHOD FOR COHESIVE CRACKS

BENVENUTI, Elena;TRALLI, Antonio Michele
2007

Abstract

A new finite element methodology of extended type for modelling fracture in elastodamaging bodies is presented. A soft layer, whose constant finite thickness is the characteristic length of the model, is embedded in an elastodamaging body. When the characteristic length is finite, an extended FE model with a fiite process zone is obtained. When the characteristic length vanishes, a crack model with a cohesive traction-separation law is recovered. Numerical tests for the first ad the second loading modes are presented.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1738100
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