structure hybrid create
command
Syntax
- structure hybrid create keyword ...
Primary keywords:
Create a hybrid bolt consisting of a collection of cable finite elements and dowels. The three main keywords articulate three creation techniques: create a collection of elements that lie between a begin point and an end point (by-line); create a single element from two existing nodes (by-nodeids); and create a collection of elements that lie along a ray (by-ray).
Dowel elements will be automatically created where the bolt crosses a joint, interface or discontinuity. The dowel consists of two nodes and is oriented perpendicular to the discontinuity. The nodes are rigidly connected to the zones (side 1) and are connected to each other via a pile-yield attach condition (side 2).
The elements of the hybrid bolt will be assigned the group name Hybrid N where N is the ID number of the hybrid bolt. And the beginning and ending nodes will be assigned the group name Hybrid Begin and Hybrid End. See the group, grop-begin, and group-end keywords to customize these assignments.
- by-line v1 v2 [hybridcreateblock]
create a collection of elements that lie along a straight line between the locations v1 and v2. New nodes associated with the elements will also be created (see the id keyword). The nodal connectivity of each new element will be ordered such that the direction from v1 to v2 corresponds with the direction from the begin point to the end point. If there are objects (zones in FLAC3D and 3DEC, and particles in PFC3D) in these locations, the element will be attached to the objects at its nodes such that the translational degrees-of-freedom are rigidly connected to the objects and the rotational degrees-of-freedom are free. If no attachment to objects is desired, then the links may be deleted with the command
structure link delete
after creating and positioning the element.
- by-nodeids i1 i2 [hybridcreateblock]
specify the ID numbers (i1, i2) of two nodes that will define the element. These nodes must already exist—nodes can be created with the
structure node create
command. Ordering of the nodes defines the beam element coordinate system as follows. The positive \(x\)-direction lies along the line from i1 to i2, and the \(y\)-direction is found by projecting the global \(y\)- or \(x\)-directions onto the element cross-section. The \(y\)-direction can also be modified with the property direction-y.The new element will not be attached to any objects (zones in FLAC3D and 3DEC, and particles in PFC3D); if you wish to attach it to objects, then after creating it, position its nodes with the
structure node initialize position
command (which will create links and set appropriate attachment conditions for all nodes that are moved into an object.
- by-ray v1 v2 f [hybridcreateblock]
creates a collection of elements that lie along a straight line starting at v1, proceeding in the direction specified by v2 for a distance given by f. New nodes associated with the element will also be created (see the id keyword). The nodal connectivity of each new element will be ordered such that the direction from v1 corresponds with the direction from the begin point to the end point. If there are objects (zones in FLAC3D and 3DEC, and particles in PFC3D) in these locations, the element will be attached to the objects at its nodes such that the translational degrees-of-freedom are rigidly connected to the objects and the rotational degrees-of-freedom are free. If no attachment to objects is desired, then the links may be deleted with the command
structure link delete
after creating and positioning the element.
structure hybrid create
Keyword Block
The following keywords may be optionally provided on element creation performed using any of the major keywords: by-line
, by-nodeids
and by-ray
.
- distinct
Eliminate sharing of nodes among created elements. Every element will create a new set of nodes, even if they are at the same location in space and elements share the same ID number. This option is most commonly used with a later
structure node join
command to create links connecting nodes at the same location in order to apply custom inter-element behavior.
- group s <slot s >
Assign all newly created elements to the group s. If the optional keyword slot can be used to specify the group slot, if not specified the group is assigned to the slot Default. Use of the group logic is described in Groups. If not specified, the default group name assigned will be Cable N where N is the ID number assinged to the cable.
- group-begin s <slot s >
A group name that will be assigned to the first node of the elements created along a line or ray. The default name assigned will be Cable Begin.
- group-end s <slot s >
A group name that will be assigned to the last node of the elements created along a line or ray. The default name assigned will be Cable End.
- id i
Specify the collection ID that will be assigned to all new elements created by this command. If this value is not given, then the next available ID will be used. The ID controls potential joining of the two element end-nodes to an existing element as follows. At each end-node location, a new node is created unless all of the following conditions are fulfilled: 1) the ID is given; 2) an existing node is found near the potential new node location; and 3) the found node is part of a beam with ID equal to i.
- maximum-length f
Break the element into segments no greater than length f. The segments setting, if provided, is overridden as needed by this setting.
- segments i
Break the element into i equal segments, creating new nodes as needed. The default value is 1, indicating that only one element will be created.
- snap <b >
Specify that the first and last positions of the element(s) created will attempt to “snap” to the location of the nearest structural node (attached to any element type) within a radius of 1/2 the element length. If only one end is snapped in this manner, then the entire line or ray created will be offset by the difference between the original and snapped positions.
Was this helpful? ... | 3DEC © 2019, Itasca | Updated: Feb 25, 2024 |