Cable
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class
itasca.structure.
Cable
- Objects of this type should not be created (instantiated) directly in Python. Use the module functions that return instances of this type.
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area
() → float. Get the cross-section area of the cable element.
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component_id
() → int. Get the Cable component id.
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connectivity
(component: int) → bool. Get the index of the node with component-ID id in the element. A ValueError exception is raised if no node in that element matches.
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delete
() → None. Delete this structural element.
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density
() → float. Get the density of this structural element.
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extra
(slot: int) → any. Get the Cable extra data in the given slot.
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force_axial
() → float. Get the average axial force of the element (positive: tension; negative: compression).
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force_nodal
() → (vec3, vec3, vec3, vec3). Get the generalized nodal force acting at each end. The translational and rotational components of node 1 are given first.
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group
([slot: str or int]) → str. Get the Cable group name in a given slot.
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group_remove
(group_name: str or int[, slot: str or int]) → bool. Remove from the given group from all group slots of the Cable. One argument of type string, giving the group name, is required. The return value is a bool which is True if the group was removed from any slot, otherwise False.
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groups
() → {slot: group_name}. Get a dictionary describing which groups this Cable is part of. The keys of the dictionary are the slot names and the values are the group names.
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grout_cohesion
() → float. Get the grout cohesion.
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grout_confining
() → (float, float). Get the confining stress acting on the grout at each end. Negative value indicates compression. The stress acts in a plane perpendicular to the cable axis; effective confining stress is the average of the principal values in this plane.
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grout_dir
() → (vec3, vec3). Get the direction vector in which cable is being loaded by the coupling spring for each end.
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grout_disp
() → (vec3, vec3). Get displacement in grout (shear coupling spring) at each end ; positive/negative with respect to the average axial direction of cable.
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grout_friction
() → float. Get the grout internal friction angle.
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grout_perimeter
() → float. Get the grout exposed perimeter.
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grout_slip
() → (int, int). Get the slip state of grout (shear coupling spring) at each end. Return value {0, 1, 2} denotes never slipped, now slipping, or slipped in the past, respectively.
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grout_stiffness
() → float. Get the grout stiffness.
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grout_stress
() → (float, float). Get stress in grout (shear coupling spring) at each end; positive/negative with respect to average axial direction of cable.
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id
() → int. Get the Cable structural element id.
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in_group
(group_name: str or int[, slot: str or int]) → bool. Test if the Cable is part of a given group. If the optional argument slot is given, only that slot is searched. Otherwise, all group slots are searched.
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length
() → float. Get the length of the cable element.
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local_system
() → Tens3. Get local coordinate system of this element as a 3x3 tensor.
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mark
() → bool. Get the mark flag on the structural element. The structural element logic may modify this flag during command processing and cycling.
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nodes
() → tuple of Structural element node objects. Get a tuple containing the structural element nodes attached to this elemment.
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pos
() → vec3. Get the position vector of the element, defined as the element centroid.
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set_area
(float) → None. Set the cross-section area of the cable element.
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set_density
(float) → None. Set the density of this structural element.
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set_extra
(slot: int, value: any) → None. Set the Cable extra data in the given slot.
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set_group
(group_name: str or int[, slot: str or int]) → None. Set the Cable group name in a given slot.
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set_grout_cohesion
(float) → None. Set the grout cohesion.
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set_grout_friction
(float) → None. Set the grout internal friction angle.
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set_grout_perimeter
(perimeter: float) → None. Set the grout exposed perimeter.
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set_grout_stiffness
(float) → None. Set the grout stiffness.
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set_mark
(bool) → None. Set the mark flag on the structural element. The structural element logic may modify this flag during command processing and cycling.
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set_slide
(bool) → None. Set the boolean flag of the large-strain sliding. If True, slide is on; if False, slide is off.
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set_slide_tol
(bool) → None. Set the large-strain sliding tolerance of the cable element.
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set_thermal_expansion
(float) → None. Set the thermal expansion coefficient for the structural element.
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set_yield_compression
(float) → float. Set the compression yield strength of the cable element.
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set_yield_tension
(float) → None. Set the tension yield strength of the cable element.
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set_young
(float) → None. Set the Youngs modulus of the cable element.
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slide
() → bool. Get the boolean flag of the large-strain sliding. If True, slide is on; if False, slide is off.
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slide_tol
() → float. Get the large-strain sliding tolerance of the cable element.
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state_compression
() → int. Get the compression yield state of the cable element. The return value {0, 1, 2} denotes never yielded, now yielding, or yielded in the past, respectively.
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state_tension
() → int. Get the tension yield state of cable element. The return value {0, 1, 2} denotes never yielded, now yielding, or yielded in the past, respectively.
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stress_axial
() → float. Get the average axial stress of the cable element (positive: tension; negative: compression.
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thermal_expansion
() → float. Get the thermal expansion coefficient for the structural element.
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valid
() → bool. Returns True if this Cable is live.
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volume
() → float. Get the cable element volume, or the cross-sectional area times the length.
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yield_compression
() → float. Get the compression yield strength of the cable element.
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yield_tension
() → float. Get the tension yield strength of the cable element.
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young
() → float. Get the Youngs modulus of the cable element.
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