Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision
Previous revision
solvers:forcetostress [2012/11/20 23:14]
gag
solvers:forcetostress [2019/01/16 10:00] (current)
mondher [Examples]
Line 13: Line 13:
  
 ==== General Description ==== ==== General Description ====
-For a given boundary, this solver computes the nodal normal ​stress equivalent to a given nodal normal ​force. This can be used also to infer the flux from the knowledge ​of a debit (should work also to infer a tangential ​force from the knowledge ​of a tangential force)+For a given boundary, this solver computes the nodal stress equivalent to a given nodal force. Force here means the result of a variable, named stress, which is of the same units than the force but per unit-area in 3D or unit-length in 2D. This can be used also to infer the flux from the value of a debit or to infer a tangential ​stress ​from the value of a tangential force. ​
  
  
Line 25: Line 25:
   ...   ...
  
-  Exported Variable 1 = Flow Solution Loads[Fx:1 Fy:1 Force:1 CEQ Residual:1 ]+  Exported Variable 1 = Flow Solution Loads[Fx:1 Fy:1 Fz:1 CEQ Residual:1 ]
   Calculate Loads = Logical True   Calculate Loads = Logical True
 End End
Line 31: Line 31:
 Solver 2 Solver 2
     Equation = "​ForceToStress"​     Equation = "​ForceToStress"​
-    Procedure = File "./​ForceToStress" "​ForceToStress"​+    Procedure = File "ElmerIceSolvers" "​ForceToStress"​
     Variable = String "​Stress"​     Variable = String "​Stress"​
     Variable DOFs = 1     Variable DOFs = 1
 +    ​
 +    Force Variable Name = String "​Fz"​
  
     Linear System Solver = Direct     Linear System Solver = Direct
Line 55: Line 57:
 ==== Examples ==== ==== Examples ====
  
-In this {{:​solvers:​test_force_to_stress.tar.gz|example}}, a pressure applied on a boundary is first integrated to get  nodal force using the [[solvers:​gethydrostaticloads|GetHydrostaticLoad Solver]], and then the pressure is recovered using the ''​ForceToStress''​ Solver.  ​+In the example ​found in ''​[ELMER_TRUNK]/​elmerice/​Tests/​ForceToStress''​, a pressure applied on a boundary is first integrated to get  nodal force using the [[solvers:​gethydrostaticloads|GetHydrostaticLoad Solver]], and then the pressure is recovered using the ''​ForceToStress''​ Solver.  ​ 
 + 
 +2 more tests were added on 15-12-2018:​ 
 + 
 +[ELMER_TRUNK]/​elmerice/​Tests/​ForceToStress_periodic:​ Test periodic conditions 
 + 
 +[ELMER_TRUNK]/​elmerice/​Tests/​ForceToStress_parallel:​ Test parallel solver
solvers/forcetostress.1353453242.txt.gz · Last modified: 2012/11/20 23:14 by gag
CC Attribution-Share Alike 4.0 International
www.chimeric.de Valid CSS Driven by DokuWiki do yourself a favour and use a real browser - get firefox!! Recent changes RSS feed Valid XHTML 1.0