sections

Unless otherwise specified, data names are accessible in level 3 only.

activesuppressed

Returns non-zero if the entity is set inactive, 0 otherwise.

Type: integer

addmass

The added mass per unit length.

Type: double

attributesmax

The number of attributes owned by this entity.

Type: unsigned integer

beam_asec_a

The area value of the ASEC beam section.

Type: double

beam_asec_cgy

The CGy value of the ASEC beam section.

Type: double

beam_asec_cgz

The CGz value of the ASEC beam section.

Type: double

beam_asec_iw

The Iw value of the ASEC beam section.

Type: double

beam_asec_iyy

The Iyy value of the ASEC beam section.

Type: double

beam_asec_iyz

The Iyz value of the ASEC beam section.

Type: double

beam_asec_izz

The Izz value of the ASEC beam section.

Type: double

beam_asec_izz

The Izz value of the ASEC beam section.

Type: double

beam_asec_j

The J value of the user transverse shear stiffness.

Type: double

beam_asec_shy

The SHy value of the user transverse shear stiffness.

Type: double

beam_asec_shz

The SHz value of the user transverse shear stiffness.

Type: double

beam_asec_tky

The TKy value of the user transverse shear stiffness.

Type: double

beam_asec_tkz

The TKz value of the user transverse shear stiffness.

Type: double

beam_chan_t1

The t1 value of the CHAN beam section.

Type: double

beam_chan_t2

The t2 value of the CHAN beam section.

Type: double

beam_chan_t3

The t3 value of the CHAN beam section.

Type: double

beam_chan_w1

The w1 value of the CHAN beam section.

Type: double

beam_chan_w2

The w2 value of the CHAN beam section.

Type: double

beam_chan_w3

The w3 value of the CHAN beam section.

Type: double

beam_csolid_cells_n

The number of cells to be placed along the circumference of the CSOLID beam section.

Type: integer

beam_csolid_cells_t

The number of cells to be placed along the radius of the CSOLID beam section.

Type: integer

beam_csolid_radius

The radius value of the CSOLID beam section.

Type: double

beam_ctube_cells_n

The number of cells to be placed along the circumference of the CTUBE beam section.

Type: integer

beam_ctube_rad_in

The inner radius value of the CTUBE beam section.

Type: double

beam_ctube_rad_out

The outer radius value of the CTUBE beam section.

Type: double

beam_hats_t1

The t1 value of the HATS beam section.

Type: double

beam_hats_t2

The t2 value of the HATS beam section.

Type: double

beam_hats_t3

The t3 value of the HATS beam section.

Type: double

beam_hats_t4

The t4 value of the HATS beam section.

Type: double

beam_hats_t5

The t5 value of the HATS beam section.

Type: double

beam_hats_w1

The w1 value of the HATS beam section.

Type: double

beam_hats_w2

The w2 value of the HATS beam section.

Type: double

beam_hats_w3

The w3 value of the HATS beam section.

Type: double

beam_hats_w4

The w4 value of the HATS beam section.

Type: double

beam_hrec_t1

The t1 value of the HREC beam section.

Type: double

beam_hrec_t2

The t2 value of the HREC beam section.

Type: double

beam_hrec_t3

The t3 value of the HREC beam section.

Type: double

beam_hrec_t4

The t4 value of the HREC beam section.

Type: double

beam_hrec_w1

The W1 value of the HREC beam section.

Type: double

beam_hrec_w2

The W2 value of the HREC beam section.

Type: double

beam_i_t1

The t1 value of the I beam section.

Type: double

beam_i_t2

The t2 value of the I beam section.

Type: double

beam_i_t3

The t3 value of the I beam section.

Type: double

beam_i_w1

The W1 value of the I beam section.

Type: double

beam_i_w2

The W2 value of the I beam section.

Type: double

beam_i_w3

The W3 value of the I beam section.

Type: double

beam_l_t1

The t1 value of the L beam section.

Type: double

beam_l_t2

The t2 value of the L beam section.

Type: double

beam_l_w1

The W1 value of the L beam section.

Type: double

beam_l_w2

The W2 value of the L beam section.

Type: double

beam_quad_g_cells

The number of cells to be placed along the 'g' axis of the QUAD beam section.

Type: integer

beam_quad_h_cells

The number of cells to be placed along the 'h' axis of the QUAD beam section.

Type: integer

beam_quad_yi

The Yi value of the QUAD beam section.

Type: double

beam_quad_yj

The Yj value of the QUAD beam section.

Type: double

beam_quad_yk

The Yk value of the QUAD beam section.

Type: double

beam_quad_yl

The Yl value of the QUAD beam section.

Type: double

beam_quad_zi

The Zi value of the QUAD beam section.

Type: double

beam_quad_zj

The Zj value of the QUAD beam section.

Type: double

beam_quad_zk

The Zk value of the QUAD beam section.

Type: double

beam_quad_zl

The Zl value of the QUAD beam section.

Type: double

beam_rect_height

The height of the RECT beam section.

Type: double

beam_rect_height_cells

The number of cells to be placed along the height of the RECT beam section.

Type: integer

beam_rect_width

The width of the RECT beam section.

Type: double

beam_rect_width_cells

The number of cells to be placed along the width of the RECT beam section.

Type: integer

beam_shear_stiff_xy

The XY value of the user transverse shear stiffness.

Type: double

beam_t_t1

The t1 value of the T beam section.

Type: double

beam_t_t2

The t2 value of the T beam section.

Type: double

beam_t_w1

The W1 value of the T beam section.

Type: double

beam_t_w2

The W2 value of the T beam section.

Type: double

beam_z_t1

The t1 value of the Z beam section.

Type: double

beam_z_t2

The t2 value of the Z beam section.

Type: double

beam_z_t3

The t3 value of the Z beam section.

Type: double

beam_z_w1

The w1 value of the Z beam section.

Type: double

beam_z_w2

The w2 value of the Z beam section.

Type: double

beam_z_w3

The w3 value of the Z beam section.

Type: double

color

The 1-64 color of the entity.

Type: integer

color_rgb

The RGB color of the entity.

Type: string

config

The configuration of the entity.

601 – Ansys BEAM

602 – Ansys CONTACT

603 – Ansys JOINT

604 – Ansys LINK

605 – Ansys PIPE

606 – Ansys PRETENSION

607 – Ansys SHELL

608 – Ansys TAPER

Type: unsigned integer

contact_axis_x1

The X coordinate of one end of the cylindrical/bolt axis.

Type: double

contact_axis_x2

The X coordinate of another end of the cylindrical/bolt axis.

Type: double

contact_axis_y1

The Y coordinate of one end of the cylindrical/bolt axis.

Type: double

contact_axis_y2

The Y coordinate of another end of the cylindrical/bolt axis.

Type: double

contact_axis_z1

The Z coordinate of one end of the cylindrical/bolt axis.

Type: double

contact_axis_z2

The Z coordinate of another end of the cylindrical/bolt axis.

Type: double

contact_half_angle

The half-threaded angle of the BOLT.

Type: double

contact_mean_dia

The mean pitch diameter of the BOLT.

Type: double

contact_pitch

The pitch distance of the BOLT.

Type: double

contact_sph_x0

The SPHERE center X location in global cartesian coordinate.

Type: double

contact_sph_y0

The SPHERE center Y location in global cartesian coordinate.

Type: double

contact_sph_z0

The SPHERE center Z location in global cartesian coordinate.

Type: double

contact_thread_starts

The number of starts.

Type: integer

definedentity

True if the entity is defined, false otherwise.

Type: Boolean

hyperbeam

Specifies a reference to Hyperbeam section referred primarily in BEAM config.

Type: entity

id

The ID of the entity.

Type: unsigned integer

include

The ID of the include file the entity is organized in.

Type: entity

includeid

The ID of the include file the entity is organized in.

Type: unsigned integer

internalid

The ID of the entity.

Type: unsigned integer

internalname

The internal name of the entity.

Type: string

joint_angle1

The reference angle.

Type: string

joint_angle2

The reference angle.

Type: string

joint_angle3

The reference angle.

Type: string

joint_fric_opt

The geometric quantities required for Coulomb frictional behavior.

Type: integer

joint_fric_val1

The Revolute - outer radius, Translational - effective length.

Type: double

joint_fric_val2

The Revolute - outer radius, Translational - effective length.

Type: double

joint_fric_val3

The Revolute - effective length.

Type: double

joint_length1

The reference length.

Type: string

joint_length2

The reference length.

Type: string

joint_length3

The reference length.

Type: string

joint_lock_maxrotx

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_lock_maxroty

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_lock_maxrotz

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_lock_maxux

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_lock_maxuz

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_lock_minrotx

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_lock_minroty

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_lock_minrotz

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_lock_minux

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_lock_minuy

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_lock_minuz

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_lsys_opt

The LCYS at the nodes that form the MPC184 joint element.

Type: integer

joint_lsys_val1

The identifier of LCYS at node I.

Type: double

joint_lsys_val2

The identifier of LCYS at node J.

Type: double

joint_pitc_val1

The pitch of the screw joint element.

Type: double

joint_rdof_opt

The relative DOF to be fixed for an MPC184-general joint.

Type: double

joint_rdof_val1

The relative DOF to be fixed for a general joint element.

Type: double

joint_rdof_val2

The relative DOF to be fixed for a general joint element.

Type: double

joint_rdof_val3

The relative DOF to be fixed for a general joint element.

Type: double

joint_rdof_val4

The relative DOF to be fixed for a general joint element.

Type: double

joint_rdof_val5

The relative DOF to be fixed for a general joint element.

Type: double

joint_rdof_val6

The relative DOF to be fixed for a general joint element.

Type: double

joint_stop_maxrotx

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_stop_maxroty

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_stop_maxrotz

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_stop_maxux

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_stop_maxuy

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_stop_maxuz

The higher end of the range of allowed movement for specified DOF.

Type: double

joint_stop_minrotx

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_stop_minroty

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_stop_minrotz

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_stop_minux

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_stop_minuy

The lower end of the range of allowed movement for specified DOF.

Type: double

joint_stop_minuz

The lower end of the range of allowed movement for specified DOF.

Type: double

link_area

The area of the LINK section.

Type: double

link_tenskey

The TENSION/COMPRESSION flag.

Type: double

moduleid

The module ID of the entity.

Type: integer

name

The name of the entity.

Type: string

offset_location

The location of the offset applicable for shell config from the MID plane.

Type: string

offset_y

The Y value to locate the node with respect to origin of BEAM or PIPE section.

Type: double

offset_z

The Z value to locate the node with respect to origin of BEAM or PIPE section.

Type: double

outputsuppressed

Returns non-zero if the entity is set "do not export", 0 otherwise.

Type: integer

pipe_cells_n

The number of cells around the circumference of PIPE section.

Type: double

pipe_cells_wall

The number of cells through the pipe wall.

Type: double

pipe_insulation_mat

The material number of material external to the PIPE.

Type: double

pipe_insulation_tk

The thickness of the material external to the pipe.

Type: double

pipe_internal_mat

The material number of fluids inside of pipe.

Type: double

pipe_out_dia

The PIPE section outer diameter.

Type: double

pipe_shell

The section number of shell representing the pipe wall.

Type: double

pipe_wall_tk

The PIPE section wall thickness.

Type: double

poolid

The pool number of the entity.

Type: integer

poolname

The pool name of the entity.

Type: string

pretension_node

The pretension node number.

Type: double

pretension_nx

The orientation X in global cartesian direction.

Type: double

pretension_ny

The orientation Y in global cartesian direction.

Type: double

pretension_nz

The orientation Z in global cartesian direction.

Type: double

shell_benscf

The hourglass control bending scale factor.

Type: double

shell_benstif

The Bending-stiffness scale factor.

Type: double

shell_drlstif

The drill stiffness scale factor.

Type: double

shell_mat

The material of shell layer.

Type: entity

shell_memscf

The hourglass control membrane scale factor.

Type: double

shell_numpt

The number of integration points in layer.

Type: integer

shell_offset

The value that locates the node with respect to the default origin.

Type: double

shell_plies

The number of plies.

Type: integer

shell_shear_stiff_11

The user transverse-shear stiffness.

Type: double

shell_shear_stiff_12

The user transverse-shear stiffness.

Type: double

shell_shear_stiff_22

The user transverse-shear stiffness.

Type: double

shell_theta

The Angle (in degrees) of layer element coordinate system with respect to element coordinate system (ESYS) of shell layer.

Type: double

shell_tk

The thickness of shell layer.

Type: double

solver_id

The solver ID of the entity.

Type: integer

solverkeyword

The name of the solver keyword.

Type: string

solvername

The solver name of the entity for entities enabled for name pool, otherwise the internal name of the entity.

Type: string

subtype

The subtype of the section for configs such as BEAM, JOINT and CONTACT.

Type: string

taper_end_x1

The X location of station 1.

Type: double

taper_end_x2

The X location of station 2.

Type: double

taper_end_y1

The Y location of station 1.

Type: double

taper_end_y2

The y location of station 2.

Type: double

taper_end_z1

The Z location of station 1.

Type: double

taper_end_z2

The Z location of station 2.

Type: double

taper_station1

The previously defined beam of pipe section at end1.

Type: entity

taper_station2

The previously defined beam of pipe section at end2.

Type: entity

Version History

2022

2022.1 - Added new data name shell_benstif.