Details

Autor(en) / Beteiligte

• Wu, Hui
• Settgast, Randolph R.
• Fu, Pengcheng
• Morris, Joseph P.

Titel

An Enhanced Virtual Crack Closure Technique for Stress Intensity Factor Calculation along Arbitrary Crack Fronts and the Application in Hydraulic Fracturing Simulation

Ist Teil von

• Rock mechanics and rock engineering, 2021-06, Vol.54 (6), p.2943-2957

Ort / Verlag

Vienna: Springer Vienna

Erscheinungsjahr

2021

Quelle

Springer Nature - Complete Springer Journals

Beschreibungen/Notizen

• A bstract The virtual crack closure technique (VCCT) is widely used for calculating energy release rates along crack fronts and modeling the propagation of cracks in solid materials. Although the VCCT formulation for smooth crack fronts has been sufficiently addressed in the literature, the application of VCCT to a nonsmoothed crack front with sharp corners warrants further investigation. The present study describes an enhanced VCCT to calculate energy release rates and stress intensity factors for cracks with arbitrary shapes in 3D domains discretized on structured grids. The formulations of the enhanced VCCT were developed and implemented into a multiphysics simulation environment capable of simulating crack propagation in the framework of linear elastic fracture mechanics. Comparisons with existing analytical/numerical solutions and other VCCT approaches were performed to verify the enhanced VCCT in terms of SIF calculation along nonsmoothed crack fronts. We then applied the enhanced VCCT to a hydraulically driven penny-shaped fracture problem to further demonstrate its capability to simulate nonsmoothed fracture propagation.