26.7.3 Cylindrical surface element library

Product: ABAQUS/Standard  

References

Element types

SFMCL66-node cylindrical surface
SFMCL99-node cylindrical surface

Active degrees of freedom

1, 2, 3

Additional solution variables

None.

Nodal coordinates required

X, Y, Z

Element property definition

Input File Usage:           Use the following option to define surface element properties:
*SURFACE SECTION

If rebar are being defined, use the following option in conjunction with the *SURFACE SECTION option:

*REBAR LAYER

Use the following option to define a mass density per unit area:

*SURFACE SECTION, DENSITY=number

Element-based loading

Distributed loads

Distributed loads are specified as described in Distributed loads, Section 27.4.3. Gravity, centrifugal, rotary acceleration, and Coriolis force loads apply only if the surface elements have rebar defined or if the elements have a defined density.


Load ID (*DLOAD):  BX

Units:  FL–3

Description:  Body force in the global X-direction.


Load ID (*DLOAD):  BY

Units:  FL–2

Description:  Body force in the global Y-direction.


Load ID (*DLOAD):  BZ

Units:  FL–2

Description:  Body force in the global Z-direction.


Load ID (*DLOAD):  BXNU

Units:  FL–2

Description:  Nonuniform body force in the global X-direction with magnitude supplied via user subroutine DLOAD.


Load ID (*DLOAD):  BYNU

Units:  FL–2

Description:  Nonuniform body force in the global Y-direction with magnitude supplied via user subroutine DLOAD.


Load ID (*DLOAD):  BZNU

Units:  FL–2

Description:  Nonuniform body force in the global Z-direction with magnitude supplied via user subroutine DLOAD.


Load ID (*DLOAD):  CENT

Units:  FL–3(ML–2 T–2)

Description:  Centrifugal load (magnitude is input as , where is the mass density per unit area, is the angular speed).


Load ID (*DLOAD):  CENTRIF

Units:  T–2

Description:  Centrifugal load (magnitude is input as , where is the angular speed).


Load ID (*DLOAD):  CORIO

Units:  FL–3T (ML–2 T–1)

Description:  Coriolis force (magnitude is input as , where is the mass density per unit area, is the angular speed). The load stiffness due to Coriolis loading is not accounted for in direct steady-state dynamics analysis.


Load ID (*DLOAD):  GRAV

Units:  LT–2

Description:  Gravity loading in a specified direction (magnitude is input as acceleration).


Load ID (*DLOAD):  HP

Units:  FL–2

Description:  Hydrostatic pressure applied to the element reference surface and linear in global Z. The pressure is positive in the direction of the positive element normal.


Load ID (*DLOAD):  P

Units:  FL–2

Description:  Pressure applied to the element reference surface. The pressure is positive in the direction of the positive element normal.


Load ID (*DLOAD):  PNU

Units:  FL–2

Description:  Nonuniform pressure applied to the element reference surface with magnitude supplied via user subroutine DLOAD.


Load ID (*DLOAD):  ROTA

Units:  T–2

Description:  Rotary acceleration load (magnitude is input as , where is the rotary acceleration).


Load ID (*DLOAD):  TRSHR

Units:  FL–2

Description:  Shear traction on the element reference surface.


Load ID (*DLOAD):  TRSHRNU(S)

Units:  FL–2

Description:  Nonuniform shear traction on the element reference surface with magnitude and direction supplied via user subroutine UTRACLOAD.


Load ID (*DLOAD):  TRVEC

Units:  FL–2

Description:  General traction on the element reference surface.


Load ID (*DLOAD):  TRVECNU(S)

Units:  FL–2

Description:  Nonuniform general traction on the element reference surface with magnitude and direction supplied via user subroutine UTRACLOAD.

Foundations

Foundations are specified as described in Element foundations, Section 2.2.2.


Load ID (*FOUNDATION):  F

Units:  FL–2

Description:  Elastic foundation.

Surface-based loading

Distributed loads

Surface-based distributed loads are specified as described in Distributed loads, Section 27.4.3.


Load ID (*DSLOAD):  HP

Units:  FL–2

Description:  Hydrostatic pressure on the element reference surface and linear in global Z. The pressure is positive in the direction opposite to the surface normal.


Load ID (*DSLOAD):  P

Units:  FL–2

Description:  Pressure on the element reference surface. The pressure is positive in the direction opposite to the surface normal.


Load ID (*DSLOAD):  PNU

Units:  FL–2

Description:  Nonuniform pressure on the element reference surface with magnitude supplied via user subroutine DLOAD. The pressure is positive in the direction opposite to the surface normal.


Load ID (*DSLOAD):  TRSHR

Units:  FL–2

Description:  Shear traction on the element reference surface.


Load ID (*DSLOAD):  TRSHRNU(S)

Units:  FL–2

Description:  Nonuniform shear traction on the element reference surface with magnitude and direction supplied via user subroutine UTRACLOAD.


Load ID (*DSLOAD):  TRVEC

Units:  FL–2

Description:  General traction on the element reference surface.


Load ID (*DSLOAD):  TRVECNU(S)

Units:  FL–2

Description:  Nonuniform general traction on the element reference surface with magnitude and direction supplied via user subroutine UTRACLOAD.

Incident wave loading

Surface-based incident wave loading is also available for these elements. See Acoustic loads, Section 27.4.5.

Element output

Output is currently available only when the surface element is used to carry rebar layers. See Defining reinforcement, Section 2.2.3, for details.

Node ordering and face numbering on elements

Numbering of integration points for output