Generalized Displacement Correlation Method for Estimating Stress Intensity Factors

This paper presents a generalized form of the displacement correlation method (the GDC method), which can use any linear or quadratic finite element type with homogeneous meshing without local refinement. These two features are critical for modeling dynamic fracture propagation problems where locations of fractures are not known a priori. Because regular finite elements' shape functions do not include the square-root terms, which are required for accurately representing the near-tip displacement field, the GDC method is enriched via a correction multiplier term. This paper develops the formulation of the GDC method and includes a number of numerical examples, especially those consisting of multiple interacting fractures. An alternative formulation using linear elements is also demonstrated to be accurate for mode-I fracturing, and acceptable mode-II results for most engineering applications can be obtained with appropriate mesh refinement, which remains considerably less than that required by most other methods for estimating stress intensities.

Data and Resources

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identifier https://data.openei.org/submissions/3020
issued 2012-01-01T07:00:00Z
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license https://creativecommons.org/licenses/by/4.0/
modified 2017-05-23T21:34:03Z
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projectLead Eric Hass
projectNumber AID 19979
projectTitle Simulation of Complex Fracture Systems in Low Pressure Reservoirs for Development of Enhanced Geothermal Systems
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Tags
  • amerigeo
  • amerigeoss
  • ckan
  • displacement-correlation-method
  • fracture-interaction
  • fracture-mechanics
  • fracture-propagation
  • gdc
  • generalized
  • geo
  • geoss
  • geothermal
  • national
  • north-america
  • quarter-point-element
  • stress-intensity-factor
  • united-states
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maintainer Pengcheng Fu
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metadata_created 2025-11-22T19:15:54.401334
metadata_modified 2025-11-22T19:15:54.401338
notes This paper presents a generalized form of the displacement correlation method (the GDC method), which can use any linear or quadratic finite element type with homogeneous meshing without local refinement. These two features are critical for modeling dynamic fracture propagation problems where locations of fractures are not known a priori. Because regular finite elements' shape functions do not include the square-root terms, which are required for accurately representing the near-tip displacement field, the GDC method is enriched via a correction multiplier term. This paper develops the formulation of the GDC method and includes a number of numerical examples, especially those consisting of multiple interacting fractures. An alternative formulation using linear elements is also demonstrated to be accurate for mode-I fracturing, and acceptable mode-II results for most engineering applications can be obtained with appropriate mesh refinement, which remains considerably less than that required by most other methods for estimating stress intensities.
num_resources 1
num_tags 17
title Generalized Displacement Correlation Method for Estimating Stress Intensity Factors