RebarSplice Class

The RebarSplice class represents a splice between two reinforcements.
Inheritance Hierarchy

Namespace:  Tekla.Structures.Model
Assembly:  Tekla.Structures.Model (in Tekla.Structures.Model.dll) Version: 2023.0.3
Syntax
[SerializableAttribute]
public sealed class RebarSplice : ModelObject

The RebarSplice type exposes the following members.

Constructors
  NameDescription
Public methodRebarSplice
Initializes a new rebar splice instance.
Public methodRebarSplice(RebarGroup, RebarGroup)
Initializes a new rebar splice instance with rebar groups to be joined.
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Properties
  NameDescription
Public propertyBarPositions
Value 0: Joined bars on top of each other in the case of the lap type splice. Value 1: Joined bars parallel to each other in the case of the lap type splice.
Public propertyClearance
The clearance between joined bars in the case of the lap type splice.
Public propertyIdentifier
The identifier of the object.
(Inherited from Object.)
Public propertyIsUpToDate
Gets if the object does not have a modification which is not shared.
(Inherited from ModelObject.)
Public propertyLapLength
The lap length of the lap type splice.
Public propertyModificationTime
Gets latest time of the object was modified or created.
(Inherited from ModelObject.)
Public propertyOffset
The distance from the end point of the first bar along the bar length.
Public propertyRebarGroup1
The first one of the joined reinforcements (picked first).
Public propertyRebarGroup2
The second one of the joined reinforcements (picked second).
Public propertyType
The type of the splice (can be a lap, weld or muff splice).
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Methods
  NameDescription
Public methodCompareTo
Compares Identifiers of model objects.
(Inherited from ModelObject.)
Public methodDelete
Deletes the rebar splice instance with the given identifier from the model database.
(Overrides ModelObjectDelete.)
Public methodEquals
Check if Identifiers of model objects are same.
(Inherited from ModelObject.)
Public methodCode exampleGetAllReportProperties
Retrieves all properties for the model object in one hashtable. Type for the returned value must be checked using type casting.
(Inherited from ModelObject.)
Public methodGetAllUserProperties
Retrieves all properties for the model object in one hashtable. Type for the returned value must be checked using type casting.
(Inherited from ModelObject.)
Public methodGetChildren
Returns an enumerator of all the children model objects.
(Inherited from ModelObject.)
Public methodGetCoordinateSystem
Returns the coordinate system for the given model object.
(Inherited from ModelObject.)
Public methodGetDoubleReportProperties
Retrieves multiple double report properties for the model object. It is faster to fetch multiple properties at once.
(Inherited from ModelObject.)
Public methodGetDoubleUserProperties
Retrieves all double properties for the model object.
(Inherited from ModelObject.)
Public methodGetDynamicStringProperty
Gets a dynamic string property from the model object.
(Inherited from ModelObject.)
Public methodGetFatherComponent
Returns the father component of the model object.
(Inherited from ModelObject.)
Public methodGetHierarchicObjects
Returns an enumerator of all the connected hierarchic objects.
(Inherited from ModelObject.)
Public methodGetIntegerReportProperties
Retrieves multiple integer report properties for the model object. It is faster to fetch multiple properties at once.
(Inherited from ModelObject.)
Public methodGetIntegerUserProperties
Retrieves all integer properties for the model object.
(Inherited from ModelObject.)
Public methodGetPhase
Retrieves the phase of the model object (the phase number, the phase name, the phase comment and whether the phase is the current one or not).
(Inherited from ModelObject.)
Public methodGetReportProperty(String, Double)
Retrieves a double property of the report for the model object.
(Inherited from ModelObject.)
Public methodGetReportProperty(String, Int32)
Retrieves an integer property of the report for the model object.
(Inherited from ModelObject.)
Public methodGetReportProperty(String, String)
Retrieves a string property of the report for the model object.
(Inherited from ModelObject.)
Public methodGetStringReportProperties
Retrieves multiple string report properties for the model object. It is faster to fetch multiple properties at once.
(Inherited from ModelObject.)
Public methodGetStringUserProperties
Retrieves all string properties for the model object.
(Inherited from ModelObject.)
Public methodGetUserProperty(String, Double)
Retrieves a double property for the model object.
(Inherited from ModelObject.)
Public methodGetUserProperty(String, Int32)
Retrieves an integer property for the model object.
(Inherited from ModelObject.)
Public methodGetUserProperty(String, String)
Retrieves a string property for the model object.
(Inherited from ModelObject.)
Public methodInsert
Inserts the rebar splice into the model database. All the attributes must be set.
(Overrides ModelObjectInsert.)
Public methodModify
Modifies the existing rebar splice in the model database to match the current one.
(Overrides ModelObjectModify.)
Public methodSelect
Selects a rebar splice from the model database. The splice identifier must be set.
(Overrides ModelObjectSelect.)
Public methodSetDynamicStringProperty
Sets a dynamic string property for the model object.
(Inherited from ModelObject.)
Public methodSetLabel
Sets a label for an object when a new instance is created, this method must be called before Insert. The label is used in plug-ins for identifying the changed object in modification.
(Inherited from ModelObject.)
Public methodSetPhase
Sets the phase of the model object.
(Inherited from ModelObject.)
Public methodSetUserProperties
Sets multiple properties for the model object.
(Inherited from ModelObject.)
Public methodSetUserProperty(String, Double)
Sets a double property for the model object.
(Inherited from ModelObject.)
Public methodSetUserProperty(String, Int32)
Sets an integer property for the model object.
(Inherited from ModelObject.)
Public methodSetUserProperty(String, String)
Sets a string property for the model object.
(Inherited from ModelObject.)
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Examples
using Tekla.Structures.Model;
using Tekla.Structures.Geometry3d;
using System;

public class Example
{
       public void Example1()
       {
           Beam Beam = new Beam(new Point(5000, 15000, 0), new Point(6000, 15000, 0));
           Beam.Profile.ProfileString = "250*250";
           Beam.Material.MaterialString = "K40-1";
           Beam.Finish = "PAINT";
           Beam.Insert();

           double MinimumX = Beam.GetSolid().MinimumPoint.X;
           double MinimumY = Beam.GetSolid().MinimumPoint.Y;
           double MinimumZ = Beam.GetSolid().MinimumPoint.Z;
           double MaximumX = Beam.GetSolid().MaximumPoint.X; 
           double MaximumY = Beam.GetSolid().MaximumPoint.Y;
           double MaximumZ = Beam.GetSolid().MaximumPoint.Z;
           double MidX = (MinimumX + MaximumX) / 2.0;

           Polygon Polygon = new Polygon();
           Polygon.Points.Add(new Point(MinimumX, MinimumY, MaximumZ));
           Polygon.Points.Add(new Point(MinimumX, MinimumY, MinimumZ));
           Polygon.Points.Add(new Point(MidX, MinimumY, MinimumZ));

           Polygon Polygon2 = new Polygon();
           Polygon2.Points.Add(new Point(MinimumX, MaximumY, MaximumZ));
           Polygon2.Points.Add(new Point(MinimumX, MaximumY, MinimumZ));
           Polygon2.Points.Add(new Point(MidX, MaximumY, MinimumZ));

           RebarGroup RebarGroup1 = new RebarGroup();
           RebarGroup1.Polygons.Add(Polygon);  
           RebarGroup1.Polygons.Add(Polygon2);
           RebarGroup1.RadiusValues.Add(40.0);
           RebarGroup1.SpacingType = RebarGroup.RebarGroupSpacingTypeEnum.SPACING_TYPE_TARGET_SPACE;
           RebarGroup1.Spacings.Add(30.0);
           RebarGroup1.ExcludeType = RebarGroup.ExcludeTypeEnum.EXCLUDE_TYPE_BOTH;
           RebarGroup1.Father = Beam;
           RebarGroup1.Name = "RebarGroup1";
           RebarGroup1.Class = 3;
           RebarGroup1.Size = "12";
           RebarGroup1.NumberingSeries.StartNumber = 0;
           RebarGroup1.NumberingSeries.Prefix = "Group";
           RebarGroup1.Grade = "A500HW";
           RebarGroup1.StartHook.Shape = RebarHookData.RebarHookShapeEnum.NO_HOOK;
           RebarGroup1.StartHook.Angle = -90;
           RebarGroup1.StartHook.Length = 3;
           RebarGroup1.StartHook.Radius = 20;
           RebarGroup1.EndHook.Shape = RebarHookData.RebarHookShapeEnum.NO_HOOK;
           RebarGroup1.EndHook.Angle = -90;
           RebarGroup1.EndHook.Length = 3;
           RebarGroup1.EndHook.Radius = 20;
           RebarGroup1.OnPlaneOffsets.Add(25.0);
           RebarGroup1.OnPlaneOffsets.Add(25.0);
           RebarGroup1.OnPlaneOffsets.Add(25.0);
           RebarGroup1.StartPointOffsetType = Reinforcement.RebarOffsetTypeEnum.OFFSET_TYPE_COVER_THICKNESS;
           RebarGroup1.StartPointOffsetValue = 20;
           RebarGroup1.EndPointOffsetType = Reinforcement.RebarOffsetTypeEnum.OFFSET_TYPE_COVER_THICKNESS;
           RebarGroup1.EndPointOffsetValue = 20;
           RebarGroup1.FromPlaneOffset = 40;

           RebarGroup1.Insert();

           Polygon Polygon3 = new Polygon();
           Polygon3.Points.Add(new Point(MidX, MinimumY, MinimumZ));
           Polygon3.Points.Add(new Point(MaximumX, MinimumY, MinimumZ));
           Polygon3.Points.Add(new Point(MaximumX, MinimumY, MaximumZ));

           Polygon Polygon4 = new Polygon();
           Polygon4.Points.Add(new Point(MidX, MaximumY, MinimumZ));
           Polygon4.Points.Add(new Point(MaximumX, MaximumY, MinimumZ));
           Polygon4.Points.Add(new Point(MaximumX, MaximumY, MaximumZ));

           RebarGroup RebarGroup2 = new RebarGroup();
           RebarGroup2.Polygons.Add(Polygon3);
           RebarGroup2.Polygons.Add(Polygon4);
           RebarGroup2.RadiusValues.Add(40.0);
           RebarGroup2.SpacingType = RebarGroup.RebarGroupSpacingTypeEnum.SPACING_TYPE_TARGET_SPACE;
           RebarGroup2.Spacings.Add(30.0);
           RebarGroup2.ExcludeType = RebarGroup.ExcludeTypeEnum.EXCLUDE_TYPE_BOTH;
           RebarGroup2.Father = Beam;
           RebarGroup2.Name = "RebarGroup2";
           RebarGroup2.Class = 3;
           RebarGroup2.Size = "12";
           RebarGroup2.NumberingSeries.StartNumber = 0;
           RebarGroup2.NumberingSeries.Prefix = "Group";
           RebarGroup2.Grade = "A500HW";
           RebarGroup2.StartHook.Shape = RebarHookData.RebarHookShapeEnum.NO_HOOK;
           RebarGroup2.StartHook.Angle = -90;
           RebarGroup2.StartHook.Length = 3;
           RebarGroup2.StartHook.Radius = 20;
           RebarGroup2.EndHook.Shape = RebarHookData.RebarHookShapeEnum.NO_HOOK;
           RebarGroup2.EndHook.Angle = -90;
           RebarGroup2.EndHook.Length = 3;
           RebarGroup2.EndHook.Radius = 20;
           RebarGroup2.OnPlaneOffsets.Add(25.0);
           RebarGroup2.OnPlaneOffsets.Add(25.0);
           RebarGroup2.OnPlaneOffsets.Add(25.0);
           RebarGroup2.StartPointOffsetType = Reinforcement.RebarOffsetTypeEnum.OFFSET_TYPE_COVER_THICKNESS;
           RebarGroup2.StartPointOffsetValue = 20;
           RebarGroup2.EndPointOffsetType = Reinforcement.RebarOffsetTypeEnum.OFFSET_TYPE_COVER_THICKNESS;
           RebarGroup2.EndPointOffsetValue = 20;
           RebarGroup2.FromPlaneOffset = 40;

           RebarGroup2.Insert();

           RebarSplice RebarSplice = new RebarSplice(RebarGroup1, RebarGroup2);

           if(!RebarSplice.Insert())
               Console.WriteLine("Insert failed!");
       }
}
See Also
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