*DeformableSurface()

Creates a three-dimensional deformable surface entity.

Syntax

*DeformableSurface(defsrf_name,"defsrf_label", NATURAL|PARABOLIC|PERIODIC numrows,numcols MarkerorBody,Point, MarkerorBody,Point, MarkerorBody,Point ...) *Set(defsrf_name.uspan,valu) *Set(defsrf_name.vspan,valv)

Arguments

defsrf_name: The variable name of the deformable surface.; Data type: varname
defsrf_label: The label of the deformable surface.; Data type: label
NATURAL|PARABOLIC| PERIODIC: The type of end condition on the surface.
numrows, numcols: This is required only in the case of CANTILEVER curve end, and describes the condition for the CUBIC spline interpolation.; Data type: int
Marker or Body,Point: The ordered list of markers (or body, point sets) that form the surface in 3D space. The markers (or body, point sets) can belong to the same body or different bodies, including flexible bodies.; Data type: Marker or Body, Point
valu: The span across u for the deformable curve.; Data type: real
valv: The span across v for the deformable curve.; Data type: real

Example

*BeginMDL(the_model, "The Model")
 *Point(p_1, "Point 1")
 *Point(p_2, "Point 2")
 *Point(p_3, "Point 3")
 *Point(p_4, "Point 4")
 *Point(p_5, "Point 5")
 *Point(p_6, "Point 6")
 
*DeformableSurface(defsrf_0, "DeformableSurface 0", NATURAL, 3, 2, 
 m_0, m_1, m_2, m_3, m_4, m_5)
 *Marker(m_0, "Marker 0", b_1, p_1)
 *Marker(m_1, "Marker 1", b_1, p_2)
 *Marker(m_2, "Marker 2", b_1, p_3)
 *Marker(m_3, "Marker 3", b_1, p_4)
 *Marker(m_4, "Marker 4", b_1, p_5)
 *Marker(m_5, "Marker 5", b_1, p_6)
 *Body(b_1, "Body 1")
 *Body(b_0, "Body 0")
 *PointToDeformableSurfaceJoint(aj_0, "Advanced Joint 0", b_0, p_10, 
 defsrf_0)
 *Point(p_10, "Point 0" )
 *Set(defsrf_0.uspan, 1.1)
 *SetPoint(p_1, 50, 10, 10)
 *SetPoint(p_2, 100, 10, 10)
 *SetPoint(p_3, 150, 10, 10)
 *SetPoint(p_4, 50, 20, 20)
 *SetPoint(p_5, 100, 20, 20)
 *SetPoint(p_6, 150, 20, 20)
 *SetPoint(p_10, 100, 100, 100)
*EndMDL()

Context

*BeginMdl()

*DefineAnalysis()

*DefineSystem()

Properties

Table 1.
Property	Returns Data Type	Description
end_type	option	The type of end description that applies for both u and v.
id	integer	The solver id for the entity.
idstring	string	The solver id for the entity in string data form.
label	string	The descriptive name of the entity.
lamda_left	real	The condition for the CUBIC spline interpolation for one end of the curve.
lamda_right	real	The condition for the CUBIC spline interpolation for the other end of the curve.
note	string	The detailed notes and description about the entity.
num	integer	The number of the entity.
state	boolean	Set to zero for the entity to be inactive, or set to one for the entity to be active.
uspan	real	The span for the u direction of the surface.
varname	string	The unique variable name of the entity.
vspan	real	The span for the v direction of the surface.

Comments

The deformable surface can be used with the *PointToDeformableSurfaceJoint() statement and the *PointToDeformableSurfaceContact() statement. The *PointToDeformableSurfaceContact() statement can be used to model flexible to rigid and flexible to flexible contact.