3.10. Elements
This section describes changes to elements at Release 13.0.
Some elements are not available from within the GUI. For a list of those elements, see GUI-Inaccessible Elements in the Element Reference.
· New Elements
· Modified Elements
· Undocumented Elements
· Archived Elements
3.10.1. New Elements
The following new elements are available in this release:
· SURF159 -- This element models axisymmetric solid surface loads acting on general axisymmetric solid (SOLID272 or SOLID273) elements. The element has quadratic displacement behavior on the master plane and is well suited to modeling irregular meshes on the master plane. It is defined by two or three nodes on the master plane, and nodes created automatically in the circumferential direction (based on the master plane nodes).
· FLUID220 -- This 3-D 20-node acoustic fluid element models the fluid medium and the interface in fluid/structure interaction problems. This element is well suited for modeling sound wave propagation and submerged structure dynamics.
· FLUID221 -- This 3-D 10-node acoustic fluid element models the fluid medium and the interface in fluid/structure interaction problems. This element is well suited for modeling sound wave propagation and submerged structure dynamics.
· HSFLD241 -- This 2-D hydrostatic fluid element models fluids that are fully enclosed by 2-D planar and axisymmetric solids. This element is well suited for modeling fluid-solid interaction with incompressible or compressible fluids under uniform pressure. It can be used in geometrically linear as well as nonlinear static and transient dynamic analyses.
· HSFLD242 -- This 3-D hydrostatic fluid element models fluids that are fully enclosed by 3-D solids or shells. This element is well suited for modeling fluid-solid interaction with incompressible or compressible fluids under uniform pressure. It can be used in geometrically linear as well as nonlinear static and transient dynamic analyses.
· REINF263 -- This 2-D reinforcing element is used with a standard 2-D solid or shell element (referred to as the base element) to provide extra reinforcing to that element. It uses a smeared approach and is suitable for modeling evenly spaced reinforcing fibers that appear in layered form.
· SOLID278 -- This 3-D 8-node thermal solid element is applicable to steady state and transient analyses. The element has two forms: homogeneous thermal solid and layered thermal solid. It is designed to be a companion element for structural solid element SOLID185.
· SOLID279 -- This 3-D 20-node thermal solid element is applicable to steady state and transient analyses. The element has two forms: homogeneous thermal solid and layered thermal solid. It is designed to be a companion element for structural solid element SOLID186.
3.10.2. Modified Elements
The following elements have been enhanced in this release:
· PLANE77 -- This element now has a plane thickness option (KEYOPT(3)).
· FLUID116 -- This coupled thermal-fluid pipe element has a new KEYOPT(1) = 3 option to specify the PRES degree of freedom when it is connected to a hydrostatic fluid element (HSFLD241 or HSFLD242). This option converts the fluid element mass flow rate to volume change for compatibility with the new hydrostatic fluid elements.
· SURF151 -- For improved accuracy in convection analyses, this 2-D surface effect element has a new option for adding two extra nodes from FLUID116 elements. For the one-extra-node option (KEYOPT(5) = 1), film effectiveness and free stream temperatures may now be input for convection surface loads.
· SURF152 -- For the one-extra-node option (KEYOPT(5) = 1), film effectiveness and free stream temperatures may now be input for convection surface loads.
· TARGE170, CONTA173, and CONTA174 -- These 3-D surface-to-surface contact and target elements now support a geometry correction feature that can be applied to spherical and revolute contact and target surfaces to reduce discretization errors associated with faceted surfaces.
· CONTA173 and CONTA174 -- These 3-D surface-to-surface contact elements support the new projection-based method specified by setting KEYOPT(4) = 3 for the contact detection option.
· CONTA171 through CONTA177 -- The following improvements are available for these contact elements:
· KEYOPT(10), which controls the contact stiffness update method, has been simplified in these elements. Several of the options have been removed from this KEYOPT; KEYOPT(10) = 0 and 2 are still available.
· A new real constant, STRM, allows you to specify the load step number in which the ramping option for initial contact penetration will take place. Used in conjunction with KEYOPT(9) = 2 or 4, this feature is useful for modeling multiple interference fits that take place sequentially over several load steps.
· The following new contact output quantities are available: VREL -- slip rate; GGAP -- true geometric gap/penetration at current converged substep; FSTART -- fluid penetration starting time. (FSTART is available only for surface-to-surface contact elements.)
· CONTA171 through CONTA178 -- You can now input a coefficient of restitution via the new contact element real constant COR. When using impact constraints to model impact between rigid bodies, the coefficient of restitution can be used to model loss of energy during impact.
· SHELL181 -- KEYOPT(4) has been removed from this four-node structural shell element. The element now uses the constitutive algorithm exclusively for nonlinear shell-thickness updates. Real constant support has been undocumented.
· SHELL208, SHELL209 -- KEYOPT(4) has been removed from these shell elements. The elements now use the constitutive algorithm exclusively for nonlinear shell-thickness updates.
· PLANE223, SOLID226, and SOLID227 -- These coupled field elements have been enhanced with new nonlinear material capabilities. Plasticity, viscoelasticity, and viscoplasticity/creep material properties can now be specified via the TB command.
· PLANE233, SOLID236, SOLID237 -- These current-technology elements now support stranded coil analyses via the new KEYOPT(1) = 2 option. The stranded coil analysis option is suitable for modeling a stranded winding with a prescribed current flow direction vector. The stranded coil may be voltage- or current-driven, as well as circuit-fed.
· SHELL281 -- KEYOPT(2) and KEYOPT(4) have been removed from this eight-node structural shell element. The element now uses an advanced shell formulation that accurately incorporates initial curvature effects. The new formulation generally offers improved accuracy in curved shell structure simulations, especially when thickness strain is significant or the material anisotropy in the thickness direction cannot be ignored. Real constant support has been undocumented.
3.10.3. Undocumented Elements
The following legacy elements have been undocumented at this release, as follows:
Undocumented Legacy Element
Suggested Current-Technology Element
Recommendations
BEAM3
BEAM188 or BEAM189
Set KEYOPT(3) = 3. Constrain UZ, ROTX, and ROTY to simulate 2-D behavior. Issue a SECTYPE,,BEAM command.
BEAM23
Set KEYOPT(3) = 3. Constrain UZ, ROTX, and ROTY to simulate 2-D behavior. Issue a SECTYPE,,BEAM command.
BEAM24
Set KEYOPT(3) = 3. Issue a SECTYPE,,BEAM command.
BEAM44
Set KEYOPT(3) = 3. Issue a SECTYPE,,BEAM or possibly a SECTYPE,,TAPER command. A SECOFFSET command may be necessary.
BEAM54
Set KEYOPT(3) = 3. Constrain UZ, ROTX, and ROTY to simulate 2-D behavior. Issue a SECTYPE,,TAPER command. A SECOFFSET command may be necessary.
COMBIN7
MPC184
Set KEYOPT(1) = 6.
LINK1
LINK180
--
LINK8
--
LINK10
To simulate LINK10 functionality, set the LINK180 tension/compression option (real constant TENSKEY).
LINK32
LINK33
--
PIPE17
PIPE288
--
PIPE20
--
PIPE60
ELBOW290
--
PLANE67
PLANE223
Set KEYOPT(1) = 110.
SHELL57
SHELL131
Set KEYOPT(3) = 2. Issue SECTYPE,,SHELL.
SOLID69
SOLID226
Set KEYOPT(1) = 110.
p-elements:
SOLID127
SOLID128
PLANE145
PLANE146
SOLID147
SOLID148
SHELL150
NA
The p-method has been undocumented.
For information about other elements that have been undocumented in prior releases, see the archived release notes on the ANSYS Customer Portal.
3.10.4. Archived Elements
The following legacy elements have been moved to the Feature Archive:
Archived Legacy Element
Suggested Current-Technology Element
Recommendations
BEAM4
BEAM188 or BEAM189
Set KEYOPT(3) = 3. Issue a SECTYPE,,BEAM command.
CONTAC12
CONTA178
Constrain the UZ degree of freedom to simulate 2-D behavior. CONTA178 does not support the circular gap option of CONTAC12.
PIPE16
PIPE288
--
PIPE18
ELBOW290
--
PLANE42
PLANE182
Set KEYOPT(1) = 3.
SOLID45
SOLID185
Set KEYOPT(2) = 3.
CONTAC52
CONTA178
--
PIPE59
PIPE288
Issue SOCEAN and ocean (OCxxxxxx) commands to apply ocean loading.
SHELL63
SHELL181
Set KEYOPT(3) = 2. May require a finer mesh.
PLANE82
PLANE183
--
SOLID92
SOLID187
--
SOLID95
SOLID186 (Homogenous Structural Solid)
Set KEYOPT(2) = 1. For nonlinear analysis, set KEYOPT(2) = 0 (default).
Release 13.0 - © 2010 SAS IP, Inc. All rights reserved.