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:link(ld,Manual.html)
:link(lc,Section_commands.html#comm)

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fix mesh/surface command :h3
fix mesh/surface/planar command :h3

[Syntax:]

fix ID group-ID mesh/surface file filename premesh_keywords premesh_values mesh_keywords mesh_values surface_keywords surface_values
fix ID group-ID mesh/surface/planar file filename premesh_keywords premesh_values mesh_keywords mesh_values surface_keywords surface_values :pre

ID, is documented in "fix"_fix.html command. :ulb,l
mesh/surface or mesh/surface/planar = style name of this fix command  :l
file = obligatory keyword :l
filename = name of STL or VTK file containing the triangle mesh data :l
zero or more premesh_keywords/premesh_value pairs may be appended :l
premesh_keyword = {type} or {precision} or {heal} or {min_feature_length}  or {element_exclusion_list} or {verbose} :l
  {type} value = atom type (material type) of the wall imported from the STL file
  {region} value = ID of "region"_region.html to filter elements which are imported
  {precision} value = length mesh nodes this far away at maximum will be recognized as identical (length units)
  {heal} value = auto_remove_duplicates or no
  {min_feature_length} value = exclude element if belongs to an entity where no element is larger than this (length units)
  {element_exclusion_list} values = mode element_exlusion_file
    mode = read or write
    element_exlusion_file = name of file containing the elements to be excluded
  {verbose} value = yes or no :pre
zero or more mesh_keywords/mesh_value pairs may be appended :l
mesh_keyword = {scale} or {move} or {rotate} or {temperature} or {mass_temperature} :l
  {scale} value = factor
    factor = factor to scale the mesh in x-, y-, and z-direction (double value)
  {move} values = mx my mz
    mx my mz = move the mesh by this extent in x-, y-, and z-direction (length units)
  {rotate} values = axis ax ay az angle ang
    axis = obligatory keyword
    ax, ay, az = axis vector for rotation (length units)
    angle = obligatory keyword
    ang = rotation angle (degrees)
  {temperature} value = T0
    T0 = Temperature of the wall (temperature units)
  {mass_temperature} value = mt0
    mt0 = mass (mass units) assumed for temperature update in the frame of "surface sphere/heatable"_gran_surface_sphere_heatable.html :pre
zero or more surface_keywords/surface_value pairs may be appended :l
surface_keyword = {surface_vel} or {surface_ang_vel} or {curvature} or {curvature_tolerant} :l
  {surface_vel} values = vx vy vz
    vx vy vz = conveyor belt surface velocity  (velocity units)
  {surface_ang_vel} values = origin ox oy oz axis ax ay az omega om
    origin = mandatory keyword
    ox oy oz = origin of rotation (length units)
    axis = mandatory keyword
    ax ay az = axis vector for rotation (length units)
    omega = mandatory keyword
    om = rotaional velocity around specifyied axis (rad/time units)
  {curvature} value = c
    c = maximum angle between mesh faces belonging to the same surface (in degree) 
  {curvature_tolerant} value = ct
    ct = yes or no :pre

:ule

[Examples:]

fix cad all mesh/surface file mesh.stl type 1 :pre

[Description:]

This fix allows the import of triangual surfeace mesh wall geometry for granular simulations from
ASCII STL files or legacy ASCII VTK files. Style {mesh/surface} is a general surface mesh, and
{mesh/surface/planar} represents a planar mesh. {mesh/surface/planar} requires the mesh to
consist of only 1 planar face.

The {region} keyword can be used to filter the elements which are imported. An element is only
imported if all of its vertices is inside the specified "region"_region.html. Please note that 
the geometric extent of this "region"_region.html refer to the unscaled, unmoved, and unrotated
original state of the geometry.

Generall, you can apply scaling, offset and rotation to the imported mesh via keywords {scale},
{move}, {rotate}. Operations are applied in the order as they are specified. The rotation via {rotate} is performed around the rotation axis that goes through the origin (0,0,0) and in the direction of {axis}.

The group-ID defines which particles will "see" the mesh, in case it is used as a granular wall.

One fix represents one wall with a specific material, where the material is identified
via keyword {type}. If multiple meshes with different materials are desired, the respective
meshes must be imported with different fix mesh/surface commands.

With the {temperature} keyword, you can define a constant temperature for a mesh in
conjunction with heat conduction via "fix heat/gran"_fix_heat_gran.html. Note that the
actual calculation of the heat transfer happens only if you use the mesh in conjunction
with a granular wall, see "fix wall/gran"_fix_wall_gran.html.

With the optional {surface_vel} keyword, you can specify the imported mesh as conveyor belt.
The velocity direction for each mesh face is given by the projection of the conveyor
belt velocity parallel to the mesh face, the velocity magnitude for each mesh face is
equal to the conveyor belt velocity. This ensures the model makes sense also in case
the mesh is curved. Likewise, the optional rotation model activated via keyword
{surface_ang_vel} mimics rotational motion of the mesh (e.g. for modeling a shear cell)

[Quality checks / error and warning messages:]

LIGGGHTS(R)-PUBLIC checks a couple of quality criteria upon loading a mesh. LIGGGHTS(R)-PUBLIC tries
to give you as much information about the issue as possible.

Warning messages:

There should be no angle < 0.5 degrees in any element (soft limit for angles) :l
All nodes should be within the simlation box :l

If any of the obove rules is not fulfilled, a warning is generated. Keyword
{verbose} controls if details about the warning are written to the screen.

Error messages:

The {curvature} must not be larger than any angle in any mesh element :l
There must be no element with an angle <  0.0181185 degrees in any element (hard limit for angles) :l
The number of neighbor elements must be <= 5 for any element :l
Mesh elements must not be duplicate :l
Coplanar mesh elements that share an edge must not overlap :l
Mesh elements must not leave the simulation domain (based on the center of the element) :l

If any of the obove rules is not fulfilled, an error is generated and
LIGGGHTS(R)-PUBLIC halts. Error messages are always {verbose}.
If LIGGGHTS(R)-PUBLIC halts due to the last error, you might think about (a)
changing the mesh import parameters ({scale}, {move}, {rotate}), (b)
changing the mesh dynamics if a "fix move/mesh"_fix_move_mesh.html is
applied or using "boundary m m m"_boundary.html

There are a couple of features that help you read / repair a mesh which 
can not be read correctly in the first place:

{precision} :l
{curvature} :l
{heal} :l
{element_exclusion_list} :l
{min_feature_length} :l
{curvature_tolerant} :l

The {precision} keyword specifies how far away mesh nodes can be at maximum to
be recognized as identical. This is important for building the topology of the mesh
and identify elements as neighbors. Normally, this should only be changed if the mesh file
you are working with is suffering from precsion / round-off issues.

The {curvature} keyword lets you specify up to which angle between two triangles the
triangles should be treated as belonging to the same surface (e.g. useful for bends).
This angle is used to decide if (a) contact history is copied from one triangle to
the other as the contact point proceeds and (b) if edge and corner interaction is
calculated.

If LIGGGHTS(R)-PUBLIC stalls because of duplicate elements, you can try setting
{heal} to auto_remove_duplicates. LIGGGHTS(R)-PUBLIC will then try to heal the geometry
by removing duplicate elements.

With the optional {element_exclusion_list} keyword is used in mode 'write', LIGGGHTS(R)-PUBLIC 
will write a list of elements which 

have more than the allowed 5 face neighbors per surface :l
have an angle below 0.0181185 degrees :l
are duplicate :l

element to a file. The 'read' mode can then use this file and will skip the elements in 
the list. However, you can also manually write such a file to exclude elements you do not 
want to have included

IMPORTANT NOTE: The {element_exclusion_list write} model works in serial only. However,
this is not a real restriction, since you can generate the exclusion lists in serial,
but then read them to import the mesh into a parallel simulation

IMPORTANT NOTE: If you use the 'heal' or 'element_exclusion_list' keywords, you should 
check the changes to the geometry, e.g. by using a "dump mesh/stl"_dump.html command.

With the {min_feature_length} option, you can exlude elements which do not belong
to an entity which has any element larger than {min_feature_length}. In this context,
'entity' is defined by the 'neighborhood' of the element.
{min_feature_length} also writes to the exclusion list, and can thus only be used along 
with the 'element_exclusion_list' feature. This feature is only available in the
PREMIUM version of LIGGGHTS.

The {curvature_tolerant} keyword can simply turn off the check that
the {curvature} must not be larger than any angle in any mesh element.
This is typically not recommended, but can be used as a last resort measure.

[Restart, fix_modify, output, run start/stop, minimize info:]

This fix writes the STL data to binary "restart files"_restart.html to be able to
correctly resume the simulation in case the mesh is moved. None of the
"fix_modify"_fix_modify.html options are relevant to this fix. No global
scalar or vector or per-atom quantities are stored by this fix for access by
various "output commands"_Section_howto.html#4_15. No parameter of this fix
can be used with the {start/stop} keywords of the "run"_run.html command.
This fix is not invoked during "energy minimization"_minimize.html.

[Restrictions:]

To date, only ASCII STL and VTK files can be read (binary is not supported).
In the current implementation, each processor allocates memory for the whole
geometry, which may lead to memory issues for very large geometries .
It is not supported to use both the moving mesh and the conveyor belt feature.

[Related commands:]

"fix wall/gran"_fix_wall_gran.html

[Default:] curvature = 0.256235 degrees, precision = 1e-8, verbose = no, heal = no
