Description: An object-oriented enriched finite element code that provides a robust tool for simulating fracture using an extended finite element(XFEM)computations. The features of the program include flexibility in the integration schemes (subtriangles, subquadrilaterals, independent near-tip and discontinuous quadrature rules) domain integral methods for homogeneous and bi-material interface cracks arbitrarily oriented with respect to the mesh geometry is described and updated by level sets, vector level sets or a standard method standard and enriched approximations are independent enrichment detection schemes: topological, geometrical, narrow-band, etc. multi-material problem with an arbitrary number of interfaces and slip-interfaces non-linear material models such as J2 plasticity with linear, isotropic and kinematic hardening.
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openxfem++\3disoelement.cpp
..........\3disoelement.h
..........\abssigneddistance.cpp
..........\abssigneddistance.h
..........\ansplate.cpp
..........\ansplate.h
..........\asymptoticfunction.h
..........\auxiliaryfield.cpp
..........\auxiliaryfield.h
..........\bendingcrackasymp.h
..........\bimatcrackasym.cpp
..........\bimatcrackasymp.h
..........\bodyload.h
..........\boundary.cpp
..........\boundary.h
..........\circle.cpp
..........\circle.h
..........\clock.cpp
..........\clock.h
..........\column.cpp
..........\column.h
..........\compiler.DEF
..........\constant.cpp
..........\constant.h
..........\constantstiffness.cpp
..........\constantstiffness.h
..........\crackasymptotic.h
..........\crackgrowthdirectionlaw.cpp
..........\crackgrowthdirectionlaw.h
..........\crackgrowthincrementlaw.cpp
..........\crackgrowthincrementlaw.h
..........\crackinterior.cpp
..........\crackinterior.h
..........\crackjunction.cpp
..........\crackjunction.h
..........\cracktip.cpp
..........\cracktip.h
..........\deadwght.cpp
..........\deadwght.h
..........\debug.DEF
..........\delaunay.cpp
..........\delaunay.h
..........\diagmtrx.cpp
..........\diagmtrx.h
..........\dictionr.cpp
..........\dictionr.h
..........\discontinuousfunction.cpp
..........\discontinuousfunction.h
..........\dof.cpp
..........\dof.h
..........\domain.cpp
..........\domain.h
..........\elasticmaterial.cpp
..........\elasticmaterial.h
..........\element.cpp
..........\element.h
..........\enrichmentdetector.cpp
..........\enrichmentdetector.h
..........\enrichmentfunction.cpp
..........\enrichmentfunction.h
..........\enrichmentitem.cpp
..........\enrichmentitem.h
..........\fei2dquadlin.cpp
..........\fei2dquadlin.h
..........\fei2dtrilin.cpp
..........\fei2dtrilin.h
..........\fei2dtriqua.cpp
..........\fei2dtriquad.h
..........\fei3dlineartetra.cpp
..........\fei3dlineartetra.h
..........\feinterpol.h
..........\feinterpol2d.h
..........\feinterpol3d.h
..........\femcmpnn.cpp
..........\femcmpnn.h
..........\fixedincrement.cpp
..........\fixedincrement.h
..........\flormtrx.cpp
..........\flotarry.cpp
..........\flotarry.h
..........\flotmtrx.h
..........\freader.cpp
..........\freader.h
..........\freestor.cpp
..........\freestor.h
..........\functors.h
..........\gausspnt.cpp
..........\gausspnt.h
..........\geometry_2D.cpp
..........\geometry_2D.h
..........\geometry_base.cpp
..........\geometry_base.h
..........\geometrydescription.cpp
..........\geometrydescription.h
..........\geometryentity.cpp
..........\geometryentity.h
..........\hole.cpp
..........\hole.h
..........\homogeneouscrackasym.cpp
..........\homogeneouscrackasymp.h
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