2018
DOI: 10.1002/nag.2882
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Cohesive fracture analysis using Powell‐Sabin B‐splines

Abstract: Summary Powell‐Sabin B‐splines, which are based on triangles, are employed to model cohesive crack propagation without a predefined interface. The method removes limitations that adhere to isogeometric analysis regarding discrete crack analysis. Isogeometric analysis requires that the initial mesh be aligned a priori with the final crack path to a certain extent. These restrictions are partly related to the fact that in isogeometric analysis, the crack is introduced in the parameter domain by meshli… Show more

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Cited by 24 publications
(66 citation statements)
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“…The example of a double‐edge notched specimen has been used to demonstrate the limitations. Remeshing in the physical domain is an alternative approach to achieve alignment between the initial T‐mesh and the final crack path, as is the use of Powell‐Sabin B‐splines, which are based on triangles and for which standard remeshing strategies in the physical domain can be used …”
Section: Discussionmentioning
confidence: 99%
“…The example of a double‐edge notched specimen has been used to demonstrate the limitations. Remeshing in the physical domain is an alternative approach to achieve alignment between the initial T‐mesh and the final crack path, as is the use of Powell‐Sabin B‐splines, which are based on triangles and for which standard remeshing strategies in the physical domain can be used …”
Section: Discussionmentioning
confidence: 99%
“…In principle, Equation can be minimised without constraining it by Equation . This is the usual way to perform a state vector transfer in crack propagation analysis . In Figure , we compare the results of minimising Equation with and without constraint, ie, Equation .…”
Section: State Vector Update After Crack Insertionmentioning
confidence: 99%
“…The left bottom edge is fixed. To impose the Dirichlet boundary condition for Powell‐Sabin triangles, the algorithm in our other work has been employed. Test results as well as results from a numerical simulation been reported in the work of Ožbolt et al The material parameters for the concrete are Young's modulus E =32.2 GPa, Poissons ratio ν =0.18, density ρ =2210 kg/m 3 , tensile strength t u =3.12 MPa, and fracture energy scriptGc=58.560.25emN/m.…”
Section: Case Studiesmentioning
confidence: 99%
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“…Since the early simulations in the 1960s two parallel strands have been pursued, namely, discrete and smeared methods 1 . While in the former approach cracks are treated as geometric discontinuities, leading to topological changes, see, for example, recent work which utilizes spline technologies to model the discontinuity, 2‐5 in the latter approach the discontinuity is modeled by distributing it over a small, but finite width 6 . The early attempts appeared to be deficient in the sense that they caused loss of well‐posedness of the boundary value problem at, or close to structural failure.…”
Section: Introductionmentioning
confidence: 99%