Open AccessAn Irreversible Constitutive Law for Modeling the Delamination Process Using Interface Elements
Author(s) -
Vinay K. Goyal,
Eric F. Johnson,
Carlos G. Dávila,
Navin Jaunky
Publication year - 2002
Publication title -
43rd aiaa/asme/asce/ahs/asc structures, structural dynamics, and materials conference
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2002-1576
Subject(s) - constitutive equation , delamination (geology) , materials science , law , cohesive zone model , stress (linguistics) , fracture (geology) , mechanics , structural engineering , exponential function , composite material , finite element method , engineering , mathematical analysis , mathematics , physics , geology , linguistics , philosophy , political science , paleontology , subduction , tectonics
An irreversible constitutive law is postulated for the formulation of interface elements to predict initiation and progression of delamination in composite structures. An exponential function is used for the constitutive law such that it satisfies a multi-axial stress criterion for the onset of delamination, and satisfies a mixed mode fracture criterion for the progression of delamination. A damage parameter is included to prevent the restoration of the previous cohesive state between the interfacial surfaces. To demonstrate the irreversibility capability of the constitutive law, steady-state crack growth is simulated for quasi-static loading-unloading cycle of various fracture test specimens.
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