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Crack-tip opening angle-based numerical implementation for fully plastic crack growth analyses
Sunghwan Jung* and Hyungyil Lee
The Journal of Mechanical Science and Technology, vol. 25, no. 5, pp.1201-1206, 2011
Abstract : This study introduces implementation of a nodal release technique into a FEM/continuum model to enable simulation of fully plastic
crack growth. The nodal release technique is implemented in the user-defined element form on the symmetry line of a deeply single-edge
cracked specimen so that the force at the crack-tip node on the symmetry line is made zero after several steps upon the satisfaction of a
chosen fracture criterion, and an incremental crack extension is achieved. The fracture criterion adopts the crack-tip opening angle
(CTOA) which is determined from the specimen¡¯s loading geometry [1]. For evaluation of the present model, the crack growth simulation
results from the present FEM model were compared to those from the line-spring model of Lee and Parks [2].
Keyword : Nodal release technique; FEM; Fully plastic crack growth; Single-edge cracked specimen; Crack–tip opening angle (CTOA); Line spring model |
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