Does anyone know about propagating a fluid driven crack in abaqus. The earliest predictive modelling of fluid driven fracture propagation can date back to the 1950s. The finite element method has been used as the numerical analysis tool, through the use of the software abaqus. Crack propagation in concrete dams driven by internal water. Xfem allows you to simulate crack propagation without remeshing or element removing. Shock and vibration hindawi publishing corporation. Essential steps for abaqus xfem modelling of cracks. Thus the fluid flow and resulting crack propagation are fully coupled in a natural way and are solved simultaneously. In the efem, fluid, driven by fluid pressure gradients resulting from an. You may use extended finite element method xfem in abaqus. Morfeocrack for abaqus enhances abaqus and is capable of performing crack propagation simulations in complex geometries. Jun 25, 2010 the fracture is driven by pumping of an incompressible viscous fluid at the fracture inlet.
Morfeo crack propagation simulation as a plugin of abaqus. The cohesive zone approach is used as the fracture propagation criterion. Abaqus xfem capability abaqus xfem modelling of concrete. On the other words, i want to use constant pressure pump instead of constant flow pump. Pore pressure cohesive zone modeling of hydraulic fracture in quasibrittle rocks. Numerical simulations of hydraulic fracture propagation. Here, we discretise the flow equation by finite volume methods. May 24, 2010 dassault systemes announces new multiphysics technology in abaqus release 6. In this eseminar we focus on basic xfem concepts, damage modeling within xfem and creating an xfem crack growth model within abaqus. In the second step the crack was eventually closed, since the builtup pressure bled off into the medium. Propagation of hydraulically driven fracture using xfem.
Crack propagation analysis massachusetts institute of. To simulate the process is a great challenge because of the strong nonlinear coupling between the viscous flow of fluid and fracture propagation. The proposed element includes the desired aspects of the xfem so as to model crack propagation without explicit remeshing. Significant progress in the simulation of fluid driven crack propagation for a single fracture occurred with recent updates of abaqus capabilities including coupled fracture and pore fluid flows with porous medium deformation. Stationary 3d crack analysis with abaqus xfem for integrity assessment of subsea equipment masters thesis in applied mechanics michael leven daniel rickert department of applied mechanics division of material and computational mechanics chalmers university of technology goteborg, sweden 2012 masters thesis 2012. Whether you need to understand the detailed behavior of a complex assembly, refine concepts for a new design, understand the behavior of new materials, or simulate a discrete manufacturing process, abaqus fea provides the most complete and flexible solution to get the job done. Stationary 3d crack analysis with abaqus xfem for integrity. Crack propagation in concrete dams driven by internal. The earliest predictive modelling of fluiddriven fracture propagation can date back to the 1950s.
The advantages of the hybrid explicitimplicit crack description and the simple model for the crack propagation carry over in a straightforward fashion. For this sharp crack, the edge representing the crack tip can simply be used, it is not necessary to define the crack tip seperately then. In a previous blog i showed how to model a stationary crack and calculate the jintegral to determine whether the crack propagates. The functionality of abaqus for sif computation is however limited to the calculation of stationary cracks. Learn how to create a model of a bending beam and subsequently create a macro and a python script. Pdf numerical simulation of hydraulic fracturing effect. An abaqus implementation of the xfem for hydraulic. Simulation of hydraulic fracturing using different mesh types. The presence and propagation of fluiddriven fractures is handled with.
Stationary 3d crack analysis with abaqus xfem for integrity assessment of subsea equipment masters thesis in applied mechanics. A simple approach for fem simulation of mode i cohesive crack. For poroelastic fracture propagation, a steadily propagating crack driven by fluid pressure was modeled to find the effect of pore pressure on crack path under the two limiting poroelastic conditions undrained and drained. Both the crack propagation system of wood and the used adhesives can a. Fluid effect on hydraulic fracture propagation behavior. The single fracture problem is compared with a well known analytic model kgd model in order to verify the efficiency of the numerical finite element model. Hydraulic fracturing simulation for fracture networks. The implicit solution technology in abaqus is ideal for solving static and lowspeed dynamic events, such as sealing pressure in a gasket joint or crack propagation in a composite airplane fuselage. The same behaviors can be observed in the twodimensional models and the threedimensional model. Hi, i would like to model a fluid filled cavity but i am using abaquscae. Xfem, hydromechanical coupling, fluiddriven fracture. Based on the further development of a cohesive finite element, a new dualattribute element of pore fluid stress element and. Does anyone know about propagating a fluiddriven crack in.
Using finite element software to simulation fracture. In abaqus explicit, the surfacebased cohesive behavior framework can be used to model brittle crack propagation problems based on linear elastic fracture mechanics principles. In it simplest form, cohesive contact can be used as an alternative to surfacebased tie constraints which are discussed in mesh tie constraints or other modeling methods. Feb 21, 2017 simulation crack propagation in concrete using abaqus duration. Abaqus cfd simulate fluid dynamics in abaqus simuleon. The extended finite element methods are used for solving solid medium with crack under dynamic loads. Abaqus fea formerly abaqus is a software suite for finite element analysis and computeraided engineering, originally released in 1978. He is the inhouse expert for composites and fracture techniques in finite elements. Thermoporoelastic fracture propagation modeling with. An abaqus implementation of the xfem for hydraulic fracture problems. The crack can propagate only along a known path, modeled as bonded contact surfaces. Thus the fluid flow within the crack and crack propagation are fully coupled in a.
There is also a short demonstration showing crack growth behavior in a threepoint bend specimen. The hydrostaticfluidmechanical multiphysics capability in abaqus allows the user to include the effects of fully enclosed gas or liquidfilled cavities in their model. In the first step steady crack propagation can be observed, with pressure built up gradually inside the developed crack. These simulations can propagate fluid filled cracks in 3d domains using. The method is based on calling abaqus standard at each propagation step. I read in the documentation that hydrostatic fluid elements are not supported by cae. If you are modeling a sharp crack with a smallstrain analysis, you can model the singularity of the strain field along the crack front see using the edit mesh toolset to adjust the position of midside nodes, section. A twostep analysis is performed, and crack propagation is simulated. The tests in this section verify the hydraulically driven crack propagation in a permeable porous medium. The lfem has a deformable mesh and can track relatively small. Morfeocrack for abaqus is built upon the implementation of xfem available in abaqus since version 6. The hydrostatic fluid mechanical multiphysics capability in abaqus allows the user to include the effects of fully enclosed gas or liquidfilled cavities in their model.
In the efem, fluid, driven by fluid pressure gradients resulting from an injection source, is allowed to move through a fixed mesh. Typically, hydraulic fracturing contains four coupling processes. Crack propagation with the xfem and a hybrid explicit. Hydrostaticfluidmechanical abaqus dassault systemes. Based on the nature of crack representation, the numerical modelling of crack propagation in continuum mechanics can use either a discrete approach or a smeared one. A hybrid femmphase field method for fluiddriven fracture.
The effects that rock and fluid material properties have on the fracture propagation, crack width, and fluid pressure is studied. Simulation crack propagation in concrete using abaqus duration. The finite element models included in these studies. As the propagation criterion is fulfilled cod or critical stress the nodes of the 2 surfaces will be released. Consider a twodimensional hydraulically driven fracture. Fluid flow in the fracture is modeled by lubrication theory. This example verifies and illustrates the use of the extended finite element method xfem in abaqus standard to model hydraulically driven crack propagation in a permeable porous medium. This paper looks at the challenges using different modelling approaches using abaqus such as cohesive. The abaqus coupled pressuredeformation cohesive elements and coupled. Numerical modeling and investigation of fluiddriven fracture. Abaqus offers different techniques to simulate crack propagation, including surface and elementbased cohesive behaviour and the virtual crack closure technique. A simple approach for fem simulation of mode i cohesive. The results presented are compared to those obtained using cohesive elements.
I can model fluid flow by using cflow in my input file, but how can i use constant pressure fluid flow rather. Pore pressure cohesive zone modeling of hydraulic fracture. We model the fluid flow within the crack as onedimensional flow and assume that the flow is laminar. Learn how to create a model of a bending beam and subsequently create a macro and a python script to change the mesh size in the model and rerun it. The fracture propagation is driven by injection of an incom. Workshop 5 crack growth in a three point bend specimen using vcct lecture 8 low cycle fatigue lecture 9 mesh independent fracture modeling xfem workshop 6 crack growth in a three point bend specimen using xfem workshop 7 modeling crack propagation in a pressure vessel with abaqus using xfem. A 3d pore pressure cohesive zone model was developed to predict nucleation and propagation of a pennyshaped fluiddriven fracture.
Krishnan teaches several abaqusbased and toscabased courses including intro to abaqus, contact, abaqusexplicit, composites, and fracturefailure with abaqus. Verification of the element has been made by compar. Implementation of the xfem for hydraulic fracture problems. The predictions were compared with the analytical asymptotic solutions and a field minifrac test from the literature. A geostatic step is performed where equilibrium is achieved after applying the initial pore pressure to the formation and the initial in situ stresses. Dassault systemes announces new multiphysics technology in abaqus release 6. So, if you have any examples about crack and crack propagation the simple one is ok but include step by step guidance please share me. The crack propagation in abaqus does not feature automatic remeshing during propagation. The tests in this section verify the hydraulically driven crack propagation in a. Propagation of hydraulically driven fracture using xfem mit.
You define a pair of surfaces in similar manner to contact modeling. Abaqus xfem capability basic constituent concepts of abaqus meshindependent. Rock deformation is modeled for linear elastic and poroelastic solids. Consider a twodimensional hydraulically driven fracture c. In addition to providing basic and advanced linear analysis capabilities, abaqus also supports the general application of. For more details and examples, please see the abaqus documentation. Based on the further development of a cohesive finite element, a new dualattribute element of pore fluidstress element and. For poroelastic fracture propagation, a steadily propagating crack driven by fluid pressure was modeled to find the effect of pore pressure on crack path under. An abaqus implementation of the xfem for hydraulic fracture. Numerical simulation of artificial fracture propagation in.
Development and validation of fullycoupled hydraulic. Moreover, suggestions for crack intersection on the proper mesh type are also. Contact cohesive behavior massachusetts institute of. Contact cohesive behavior massachusetts institute of technology. The name and logo of this software are based on the abacus calculation tool. How can i model constant pressure fluid flow in abaqus for. Although there are examples files in abaqus online manual, i still cannot do my task correctly. I am trying to model the crack and the crack propagation using abaqus. The crack front determines the first layer of elements to be used. Intrinsic anisotropy is accounted for at the continuum scale, by using a damage model in which two equivalent strains are defined to distinguish mechanical behavior in the direction parallel and perpendicular to the layer. The abaqus product suite consists of five core software products. Structural and fluid flow optimization topology, sizing, shape, bead optimization. Dassault systemes announces new multiphysics technology in. Simulation of multiple hydraulically driven fractures.
To see the full eseminar replay, log on here to the simulia learning community. Numerical modeling of hydraulic fracture problem in permeable. Do you understanding that you are asking me to tell you how to steal stuff from my company. This example verifies and illustrates the use of the extended finite element method xfem in abaqusstandard to model hydraulically driven crack propagation in a permeable porous medium. We especially investigate the ability of cohesive elements to model fluiddriven crack propagation in the viscositydominated regime. Numerical simulations of hydraulic fracture propagation a. There is no need to specify stiffness or damage properties of the contact cohesive behavior in this case. In this paper, a numerical method is proposed to simulate multiscale fracture propagation driven by fluid injection in transversely isotropic porous media. For blunt cracks, the crack front is a face and the crack tip crack line needs to be defined seperately. I can model fluid flow by using cflow in my input file, but how can i use constant pressure fluid flow rather than constant flow rate. Numerical modeling and investigation of fluiddriven. Numerical simulations of hydraulic fracture propagation a coupled eulerianlagrangian approach michael baranowski1 and timothy masterlark1.
Morfeo crack propagation simulation as a plugin of abaqus on. Does anyone know about propagating a fluiddriven crack in abaqus. The next step represents the hydraulic fracture stage where the main volume of fluid is being injected into the well. Numerical analyses have been performed on an initial cracked specimen to study the pressure along the crack propagation. Xfem in abaqusstandard to model hydraulically driven crack propagation in. Using xfem in abaqus to model fracture and crack propagation. The influence of the cohesive process zone in hydraulic. Morfeo crack for abaqus enhances abaqus and is capable of performing crack propagation simulations in complex geometries.
We refer the interested reader to 7, 30 for a general discussion on meshfree methods and to 9, 10, 46, 57 for applications of meshfree methods in fracture mechanics. When you asked me to read this, you do understand that my byline says employee of the software company, right. Abaqus cfd simulate fluid dynamics with abaqus cfd the integrated cfd solver to predict pressure distributions in flow systems for your structural analysis. Abaqus xfem simulation for modeling crack propagation youtube. The crack propagation in abaqus is based on the node release approach. The fracture is driven by pumping of an incompressible viscous fluid at the fracture inlet. The simulation of hydraulic fracturing by the conventional abaqus cohesive finite element method requires a preset fracture propagation path, which restricts its application to the hydraulic fracturing simulation of a naturally fractured reservoir under full coupling.
The cohesive zone model is more suitable for crack problems than lefm for cemented materials because the size of the. The rock deformation induced by the fluid pressure within the fracture, the fluid flow in the fracture which contains tangential flow and normal flow, tangential flow is the fluid flow in the length direction. In addition, the fluid pressure degrees of freedom have been defined on the element to describe the fluid flow. The virtual crack closure technique vcct fracture criterion can be used to model crack propagation in initially partially bonded surfaces. Pore pressure cohesive zone modeling of hydraulic fracture in. Crack propagation has been simulated with one method, the discrete crack approach. A new finite element has been implemented in abaqus to incorporate the extended finite element method xfem for the solution of hydraulic fracture problems. Abaqus xfem simulation for modeling crack propagation. Workshop 7 modeling crack propagation in a pressure vessel with abaqus using xfem. I am modeling fluid driven crack propagation in abaqus by using cohesive elements. If you request stress intensity factors, abaqus can also compute the crack propagation direction at initiation.
1192 730 831 1170 1514 192 1389 1693 356 1492 1110 1651 1025 910 945 1595 892 1034 1226 699 810 76 1570 23 872 1491 164 1361 1398 841 6 1466 437 811 670 205 628 141 1361 38 453 943 174 1200