16 Packages since 2015
User Packages
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MortarContact2D.jl1Mortar contact mechanics for plane problems
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FEMMaterials.jl1JuliaFEM bindings to Materials.jl
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HeatTransfer.jl2Implementation of heat transfer problems for JuliaFEM
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MortarContact2DAD.jl3Plane mortar contact mechanics using automatic differentiation
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FEMBeam.jl5Beam implementation for JuliaEFM
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MFrontInterface.jl5MFrontInterface provides Julia bindings to MFront via MFrontGenericInterfaceSupport
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AsterReader.jl5AsterReader.jl is a Julia package to read Code Aster binary mesh and result files. Code Aster meshes can be done using another open source software SALOME Platform. Reading results from .rmed files is also partially supported, so it's possible to verify calculations of JuliaFEM.jl against Code Aster solutions.
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Mortar2D.jl7Mortar2D.jl is a Julia package to calculate discrete projections between non-conforming finite element meshes. The resulting "mortar matrices" can be used to tie non-conforming finite elements meshes together in an optimal way.
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FEMQuad.jl7FEMQuad.jl package contains various of integration schemes for cartesian and tetrahedral domains. The most common integration rules are tabulated and focus is on speed. Each rule has own "label" so we can easily implement several rules with same degree. API is very simple making is easy to utilize package in different FEM projects.
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BoundingSphere.jl10Package contains algorithms to calculate smallest enclosing sphere for a given set of points in N dimensions.
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FEMBasis.jl14FEMBasis contains interpolation routines for finite element function spaces. Given ansatz and coordinates of domain, shape functions are calculated symbolically in a very general way to get efficient code. Shape functions can also be given directly and in that case partial derivatives are calculated automatically.
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FEMBase.jl16JuliaFEM base package (core functionality)
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Materials.jl19Computational material models
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AbaqusReader.jl37AbaqusReader.jl is a parse for ABAQUS FEM models. It's capable of parsing the geometry accurately, including surface sets, node sets, and other relevant geometrical data used in FEM calculations. Other option is to parse whole model, including boundary conditions, material data and load steps.
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Gmsh.jl52Gmsh.jl contains API for Gmsh: a three-dimensional finite element mesh generator. With the help of Gmsh.jl, it is possible add parametric model construction and/or automatic mesh generation to a FEM pipeline.
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JuliaFEM.jl250The JuliaFEM software library is a framework that allows for the distributed processing of large Finite Element Models across clusters of computers using simple programming models. It is designed to scale up from single servers to thousands of machines, each offering local computation and storage.
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