XFEM4U: Difference between revisions

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(Created page with "XFEM4U is a 3D FEM calculation program for 3D frames and plates. The calculation method is Geom. Please have a look at our website for a overview of the functionalities: [https://www.struct4u.com/xfem4u-2/?lang=en | Website ]")
 
 
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XFEM4U is a 3D FEM calculation program for 3D frames and plates. The calculation method is Geom.
XFEM4U is the MOST intuitive structural analysis and design software for 3D models of any structure. Consider, for example, a calculation of 3D frameworks in steel and/or wood, concrete beam grids, foundation slabs on an elastic soil, point-supported concrete flat slabs, walls, and so on.  
Whether or not combined in one model.  


Please have a look at our website for a overview of the functionalities: [https://www.struct4u.com/xfem4u-2/?lang=en | Website ]
It is developed in close cooperation with the users of the software.
 
This page contains a complete list of all the features of XFEM4U. For more information check the [[Documentation XFEM4U|Documentation XFEM4U.]]
 
<youtube>Dh4v5oTb1b0&list=PLULKpgX0QPOIa8ui4s0AFR8brVXiQRDzx</youtube>
 
===Features===
 
===Geometry===
* Point, line, surface supports
* Pinned, fixed, (rotational, strain) spring
* [[XFEM4U Beams]]
* [[XFEM4U Plates]]
* Gridlines XYZ
* Outer Panel
* Layers
* Dimension
 
===Modelling/3D Navigation tools===
* Copy, move, delete, rotate
* Copy including loads
* Mirror
* Multiple copies
* Renumber
* Find
* Snap
* Navigating in 3D using Revit or Tekla Style
* 3D Mouse(By example 3D Connection''') is supported
* Solid view/Line view
* Perspective, Orthographic
* Screenshot
* Zoom extents
* Zoom selection
* Hall Wizard
 
===FEM/Solver===
* 3D Finite Element Method('''FEM''')
* Force distribution is determined using the displacement method. Normal- and shear force deformations are taken into account
* New powerful matrix/equation solver written in C#
* Modern powerful meshing tool
* Create local mesh refinements
* Used hybride element type is based on the latest insights from engineering science.
* Geometric Linear(GL) and Geometric Non-Linear(GNL) second order calculation
* Geometric Non Linear for beams
* Geometric Linear for plates
* Physic Linear for Concrete, Steel and Wood
 
===Loads===
* Load Cases/Combinations user defined or using the Eurocode
* Beam load''', plate load, free surface load, node load, free point load
* Forced node displacement
* Surface load can be used for load distribution to beams
* Use of the local or global coordinate system
* Load generator
 
===Interface===
* Multiple languages are available: English, German, Spanish, Italian, Norwegian, French and Dutch
* CAD like user interface intuitive modern and fast
* Colors, text height fully customable
* 3D OpenGL Graphics
 
===Standards===
* [[Documentation Eurocode|Eurocodes]] EN 1990, EN 1991, EN 1992, EN 1993 and EN 1995 are integrated where applicable
* [[Documentation ANSI|American Standard of steel]] ANSI/AISC 360-16 is integrated.
* Dutch, German, UK, Belgium and Italian National Annex of the Eurocodes are integrated
* Partial factors are based on consequence class and NA
* Imperfection in 2 directions
* Dutch specific features:
** [[NEN 8700]] integration
** Old rebar steel types'''(FeB220,FeB400) are integrated
** Earthquake calculations using the [[NEN-NPR 9998]]
 
===Concrete===
* Calculation of concrete beams using the Eurocode EN 1992-1-1
* Checks ULS and SLS
* [[Reinforcement calculation plate Eurocode | FEM Calculation of reinforcement in plates]] based on all internal forces(M,N,V) using the latest scientific insights'''.
* Using the 3-layer model
* Shear force reinforcement in plates is calculated as well
 
===Steel===
* Integrated Eurocode EN 1993(class 1-3 profiles)
* Global buckling stability check using GNL(Second-order analysis)
* Steel optimization module
* ca 2700 different steel profiles integrated.
* [[Profile|Built-up section]]
* Deflection check including pre-camber
* Integrated steel connection module. Beam-column moment connection can be calculated and the trilinear rotational rigidity diagram is used for the moment distribution
* Tapered sections
 
===Timber===
* Calculation of timber columns/beams using Eurocode
* Global buckling stability check using GNL(Second-order analysis)
* Climate classes are integrated
* Tapered sections
 
===Results & Reporting===
* Internal forces of beams(M,V,N)
* Reaction forces
* Envelop forces and stresses
* Flat representation or 3D Isosurfaces
* [[Plate stresses/forces]](σ-x,σ-y,τ-xy,σ-von Mises, nxx, nyy, nxy, mxx, myy, mxy, vx, vy, Mudx, M'udx, Mudy, M'udy, Asxb, Asxt, Asyb, Asyt, Asxb_extra, Asxt_extra, Asyb_extra, Asyt_extra, Asw, m1, m2, v0, Traj-m, Traj-v, Soil pressure)
* Different useful options for output selection
* Create Bill of materials of beams
 
===Import/Export===
* Import of [[DWG/DXF]], [[XML Interface|XML]],[[SDNF]]
* Export of [[XML Interface|XML]], [[SDNF]], txt
* Import/Export to Revit/Dynamo, Tekla using xml interface
* Export to pdf, rtf
 
===Videos===
Below a number of Quickstart videos from our YouTube Channel:
 
‎‎<youtube>qPw7qTc_HcA</youtube>
 
‎<youtube>EnBObwNFRTQ&t=1s</youtube>
 
‎<youtube>L79jpbGkDV4</youtube>

Latest revision as of 10:04, 4 November 2022

XFEM4U is the MOST intuitive structural analysis and design software for 3D models of any structure. Consider, for example, a calculation of 3D frameworks in steel and/or wood, concrete beam grids, foundation slabs on an elastic soil, point-supported concrete flat slabs, walls, and so on. Whether or not combined in one model.

It is developed in close cooperation with the users of the software.

This page contains a complete list of all the features of XFEM4U. For more information check the Documentation XFEM4U.

Features

Geometry

  • Point, line, surface supports
  • Pinned, fixed, (rotational, strain) spring
  • XFEM4U Beams
  • XFEM4U Plates
  • Gridlines XYZ
  • Outer Panel
  • Layers
  • Dimension

Modelling/3D Navigation tools

  • Copy, move, delete, rotate
  • Copy including loads
  • Mirror
  • Multiple copies
  • Renumber
  • Find
  • Snap
  • Navigating in 3D using Revit or Tekla Style
  • 3D Mouse(By example 3D Connection) is supported
  • Solid view/Line view
  • Perspective, Orthographic
  • Screenshot
  • Zoom extents
  • Zoom selection
  • Hall Wizard

FEM/Solver

  • 3D Finite Element Method(FEM)
  • Force distribution is determined using the displacement method. Normal- and shear force deformations are taken into account
  • New powerful matrix/equation solver written in C#
  • Modern powerful meshing tool
  • Create local mesh refinements
  • Used hybride element type is based on the latest insights from engineering science.
  • Geometric Linear(GL) and Geometric Non-Linear(GNL) second order calculation
  • Geometric Non Linear for beams
  • Geometric Linear for plates
  • Physic Linear for Concrete, Steel and Wood

Loads

  • Load Cases/Combinations user defined or using the Eurocode
  • Beam load, plate load, free surface load, node load, free point load
  • Forced node displacement
  • Surface load can be used for load distribution to beams
  • Use of the local or global coordinate system
  • Load generator

Interface

  • Multiple languages are available: English, German, Spanish, Italian, Norwegian, French and Dutch
  • CAD like user interface intuitive modern and fast
  • Colors, text height fully customable
  • 3D OpenGL Graphics

Standards

  • Eurocodes EN 1990, EN 1991, EN 1992, EN 1993 and EN 1995 are integrated where applicable
  • American Standard of steel ANSI/AISC 360-16 is integrated.
  • Dutch, German, UK, Belgium and Italian National Annex of the Eurocodes are integrated
  • Partial factors are based on consequence class and NA
  • Imperfection in 2 directions
  • Dutch specific features:
    • NEN 8700 integration
    • Old rebar steel types(FeB220,FeB400) are integrated
    • Earthquake calculations using the NEN-NPR 9998

Concrete

  • Calculation of concrete beams using the Eurocode EN 1992-1-1
  • Checks ULS and SLS
  • FEM Calculation of reinforcement in plates based on all internal forces(M,N,V) using the latest scientific insights.
  • Using the 3-layer model
  • Shear force reinforcement in plates is calculated as well

Steel

  • Integrated Eurocode EN 1993(class 1-3 profiles)
  • Global buckling stability check using GNL(Second-order analysis)
  • Steel optimization module
  • ca 2700 different steel profiles integrated.
  • Built-up section
  • Deflection check including pre-camber
  • Integrated steel connection module. Beam-column moment connection can be calculated and the trilinear rotational rigidity diagram is used for the moment distribution
  • Tapered sections

Timber

  • Calculation of timber columns/beams using Eurocode
  • Global buckling stability check using GNL(Second-order analysis)
  • Climate classes are integrated
  • Tapered sections

Results & Reporting

  • Internal forces of beams(M,V,N)
  • Reaction forces
  • Envelop forces and stresses
  • Flat representation or 3D Isosurfaces
  • Plate stresses/forces(σ-x,σ-y,Ï„-xy,σ-von Mises, nxx, nyy, nxy, mxx, myy, mxy, vx, vy, Mudx, M'udx, Mudy, M'udy, Asxb, Asxt, Asyb, Asyt, Asxb_extra, Asxt_extra, Asyb_extra, Asyt_extra, Asw, m1, m2, v0, Traj-m, Traj-v, Soil pressure)
  • Different useful options for output selection
  • Create Bill of materials of beams

Import/Export

  • Import of DWG/DXF, XML,SDNF
  • Export of XML, SDNF, txt
  • Import/Export to Revit/Dynamo, Tekla using xml interface
  • Export to pdf, rtf

Videos

Below a number of Quickstart videos from our YouTube Channel:

‎‎

‎

‎