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Apart from Tekla Campus lessons, Tekla also has shorter support videos. There are many of these videos, and one covers something very specific. The first is case studies with clients about the best practices, which you can put into use in your own company. Keep in mind that they show only the new or improved features, and you need to get your base knowledge from somewhere else. These webinars normally happen twice a year with each new version.
Tekla Campus is a perfect place to start to familiarize yourself with the software and set your direction. The next step would be to dive in deeper. To be able to create everything with Tekla Structures to complete a project well and do it efficiently, you need full training that covers everything necessary. Some recommendations for choosing classroom training:.
Classroom training is not only a very effective and fast way to learn Tekla, but many training centers provide a certification that shows your competence upon completion.
Online courses usually are very similar to live classroom training depending on the quality, of course. With this version, it has now reached Structures Structures is loaded with many refinements and bug fixes, whether it be drawings, collaboration, or modeling geometries.
You can generate complete drawings quickly and optimize the improved Layout and Template editors, DWG export functionality, and Drawing snapshots. The Tekla Structures tutorial PDF teaches a novice user how to incorporate different building materials that include steel and concrete. Spiral Beam can create modeling structures like spiral shaped stairs.
The developer has made it easy to tackle steel bent plates. Utilizing a sloping work plane and view planes, we will model roof joists.
Finally, we will create vertical eaves bracing on gridlines C and F. We will first create two W30X columns on gridline 1 at C1 and F1. Complete the Column properties profile and levels for the column at grid intersection C1 using prefix and start numbers previously saved.
Pick grid intersection C-1 to create the column. Complete the Column properties for the column at grid F1. Pick the grid intersection F-1 to create the second column. Set the profile and top elevation properties as shown below.
Pick the grid intersections at D1 and E1 to create the columns. Next, we will create the floor beams on column line 1. Load the BEAM properties. Enter W24X76 for the beam profile. Place the beams along column line 1, working from bottom to top.
Create rafter 1. Enter W30X99 for the rafter profile and click Apply. You may need to expand the 3D view at this point if your rafters are not visible. To do this double-click in open space in the 3D view, then change the dialog as shown below. These points can be placed in either a plan view at the steel elevation or an elevation view along this column line. First, the floor beam spacing.
Double-click on the Add points on line icon. Type 4 and click Apply. Select the grid intersection of C1, then D1 to create five equal spaces 4 points. Repeat at the bay between grid intersections E1 and F1. Pick the grid intersections D1, then E1 to create 6 equal spaces 5 points in that bay. Double-click on the Add point along extension of two picked points icon. We use a negative value to make the extension point work back towards the first point clicked.
Repeat, picking the points in the reverse order. Create extension point adds or subtracts a point along a line that you specify by clicking two points in the model. The points that are clicked by you in the model define the direction vector; the value you enter defines the distance from the second selected point. A positive or negative value defines the direction along the defined vector. A positive value means the extension point to be added will further away from the first point clicked, negative means back towards the first point clicked.
Using the Add points on line command, divide the space between the two work points that you just created into twelve equal spaces 11 points. Type 11 and click OK. Select the two work points created previously. Copy the members 1. Select the columns, the rafter, beams and the points. Type the number of copies 6. Enter W24X76 for the beam profile and click Apply. Next, we will model the infill joists in each bay. Enter 18K for the joist profile and click Apply. Pick the joist work point near grid intersection C1 at the command Pick first position.
At the command: Pick second point, pick the work point near grid intersection C2. Pick the endpoint of the joist, then the next work point to set the new copied location. Repeat up to column line F. To place the parts in the correct plane we will first change the work plane which currently is the local coordinate system of the model to the roof slope.
To set the work plane to the roof slope: 1. Pick the Set Work using three points icon. Pick the end of the beam near the top of column at grid C1 as the origin. Pick the end of another beam near the top of a column along grid C to define the positive x direction. Pick the top of the F1 column to define the positive y direction. The work plane is now positioned to the top plane of the rafter.
The Set work plane to part top plane command sets the work plane parallel to the part plane front, top, back, bottom on the center line of the part. Joist Orientation without adjusted work plane Joist orientation with adjusted work plane. We can also use the true plan view in drawings. Working in a true plan view makes it easier to model sloped objects since the grids are also shown in the true plan.
The part positioning, copying, etc, however, always comply with the work plane coordinate system no matter in which view you perform the commands.
Create true plan view 1. Load the Plan View pre-defined settings and complete the properties as shown below, click OK. The new view is created. The grid is also shown in the true plan view plane. Notice that because you are now looking directly at the sloping roof, your columns may look a little odd because they are effectively skewed in this view. This grid displays as a dark red color. Create roof joists We will now create the roof joists by using the Create beam tool.
Load the Joist properties. Select a 12K profile for the joists. Pick the joist work point near grid intersection F-1 at the command Pick first position. At the command: Pick second point, pick the work point near grid intersection F Check the elevation view on grid 1 to ensure that the roof joist is oriented and positioned correctly.
Now we must switch the work plane back to the second building in a flat plane to carry on modeling outside of the roof plane. There are a few ways we could do this but we will use one of the existing view planes and match the work plane to it. Select the open model view. The work plane is now set square to the skewed building. Horizontal Eaves Bracing Working along grid line C we will create vertical bracing using the Create beam tool.
Create brace 1. Create one brace using the column top positions at C-1 and C Open the Plan at 59'-8 level and place a brace along the column top positions at F-1 and F Crane Beam Support Stubs Next we will add crane girders to the framing. Create Stubs 1. Enter W18X40 for the profile size. Move the cursor to snap in the y direction activate the Snap to nearest points option. Practice the use of Polar Tracking in order to fully maximize your modeling speed. Remember relative and absolute snaps can also help you to locate items or points in your model.
Copy girders 1. Copy the girders that you created to the other columns on gridline C. Now we must switch the work plane back to the global origin. Select Plane: XY and set the depth coordinate to 0 and click Change. The work plane is now set back to the global origin. Take some time now to complete the connections on this model using whatever you deem appropriate.
You will find many useful connections in the component catalog for connecting the rafters, crane beams and eaves braces to the columns, and there are several joist to beam set ups too. Don't forget to add the column base plates too. Check that all part properties are consistent The Model 1 parts were created without paying attention to part properties and they may not be consistent with the Model 2 parts color, name, numbering series, and material.
This is important because it will simplify how our automatic drawing output can be handled. For instance: When we created Basic Model 1, we didn't really pay attention to the Name field in the Part Properties dialog box.
The program uses this field to help produce better drawings. Items named as JOIST can be easily omitted from the fabrication drawing production system as these will not be necessary. Part properties can also control how numbering prefixes can be handled.
So to avoid columns and beams all receiving the same prefix we must be disciplined about defining part properties. Select the Beam Filter on toolbar. Now drag a box over the entire model. Everything that should be defined as a BEAM in the Name field of the part properties dialog box should now be highlighted.
Notice that only items that were named BEAM are highlighted. Using the predefined attributes that were set up by Tekla ensures that not only will the name field be consistent but the grades and numbering series fields will also be correct.
We will use the names of the part as filtering criteria. For steel beams and columns, we will use the materials as additional filtering criteria to be able to filter them separately. As we will be primarily involved in producing Steel drawings that do not include things like joists, we may like to filter out all the other items in our model. To do this we can create a select filter that excludes us from selecting any item that has a material grade that does not match the rest of the main steel.
Typical wide flange shape material in Tekla Structures is A Enter the name A in the Save as field and click Save as. You can now select the new filter on the drop-down list. Be careful when you do this, you may accidentally miss out on parts you wanted to include. By using the Select from model… option, select filters can be defined for various items including: Slabs Horizontal bracing Vertical bracing Silos Rafters Joists.
Create your own select filters to use both for modeling and for automating drawing creation with the help of wizards. Note that by expanding the save menu using the button on the upper right you have the option to save the same settings as View, Drawing, and Object Representation filters.
For the purpose of this manual, however, we will address each separately. First we will adjust display settings. In a model view, such as your 3d view, double-click in the view background to bring up the View Properties dialog box. Click on the Display button. Using these checkboxes, you can turn on and off objects depending on their hierarchy.
Notice how the bolts disappear from the component because we have turned them off in the display properties for this view. There are also drop-down boxes on the right under Representation. These drop-downs allow you to set the definition for your objects.
You can choose to show parts Exact, which looks better visually, or for speed you can set them for Fast. With your Display dialog still up, check on Bolts under In components again. Select Fast from the drop down menu under Representation. Notice that our bolts are now shown as black reference lines, instead of displaying as actual bolts. You can set other objects to Fast as well, such as Parts.
When parts are set to Fast you will not see cuts and fittings that have been applied, for example copes. They are still there, and your drawings will be correct. It is just a visual setting. You can set your bolts back to Exact before continuing, and close the Display properties dialog box. If it is not currently open, double-click in the view background to bring up the View Properties dialog box.
Under Visible Object Group, there is a drop-down menu for predefined view filters. Select Steel Column from the drop-down menu and click Modify.
When we do this you can see that all parts that do not meet the criteria in the Steel Column filter are removed from the view. This can greatly aid in creating drawings when used like the selection filter. Click on the Object Group button in your View Properties dialog box. You should see the settings that are activated for the Steel Column filter we just used. You can use similar fields to build your own view filter just like we did for the selection filter earlier. Select standard from the drop down menu at the top of the dialog box, and the fields should all clear back to default.
You can now build your own. Pick one of the part rows and change it to match below. Using the view filters, you can show parts of a certain phase, material grade, size, or even filter for specific part or assembly position numbers if you need to find them.
Note that you can set up this information at any time, but the most logical time to do this is right at the start of the contract. Project properties Preferences Tekla Structures contains a powerful tool to help productivity with regard to setting up information that may be repeated over several contracts.
All this information can be entered once then stored in a "Firm or Project Folder" so that the next time you start a new model on a particular project or for a particular client you already have the settings required. Set up project properties 1. Note that default information has been added in the dialog box to show you what fields will apply when used on templates.
Replace the defaults with project information. Check preferences Before starting the modeling, we will check that preferences are set up correctly. Check that your preferences are set up correctly before you start modeling. If you change settings on the Preferences tab, Tekla Structures only applies the new settings to connections you subsequently create. Connections you created prior to changing the preferences are not affected. For Components, check the values are as below, and click OK.
The bolt edge distance factor does not actually affect connections created by Tekla; it only sets the value for the bolt edge distance warning in the bottom left. Under Orientation marks, you can set north direction by degrees from global X as shown on the next page. In this lesson Tekla Structures system components cover a great variety of the components used in most projects. However, you may come across situations where it's not possible to make the necessary connections in your model using the system components.
In this chapter we will take advantage of the Tekla Structures tube gusset connection by using it as a base for a customized connection. We will explode the system component, modify the ungrouped objects and then add objects to the connection using a system component detail.
We will also create a whole new connection i. We will learn how to: Adapt a System Component to our specific needs Combine one System Component with another to create a complex connection Create a Custom Component interactively Apply the created component around the model. You can, however, create the stiffeners separately by using a system component detail. We will explode an existing tube gusset connection, modify the gusset plate shape and then create stiffeners in the connection using a system component detail.
Near the bottom end of the column at grid A-2 is a Tube Gusset 20 connection. In the figure on the left, we see the connection before the stiffeners have been added. In the figure on the right, we see how the connection will look after the stiffeners have been added.
Select the component symbol. Adjust the size of the window as needed. Explode gusset plate connection Inside of the system connection we are not able to reshape the gusset plate the way it is shown in the figure on the previous page.
In situations where the connection parameters do not contain a particular option, we must edit the parts outside of the connection. In order to modify connection objects outside the connection, we need to explode the connection to ungroup the objects in the connection.
Modifications when done outside of the connection dialog box without first exploding the connection will result in the changes being overwritten if the connection were to get updated.
Before exploding the connection you should take advantage of the connection to get as close to the desired result as possible since editing connection macros is faster and easier than editing objects outside the connection.
Explode connection To explode the connection: 1. Right-click and select Explode Component. All connection objects even if they are set to "not visible" in the view properties will become visible. Now all of these objects have lost intelligence and association to the connection dialog box. After exploding the connection, the objects that were in the connection are no longer connection objects. They will be presented in the model as objects main parts both in wire frame and in shaded wire frame.
The system component added the gusset plate using the 'Contour Plate' command that we have not actually learned yet. The contour plate features special editable corners that can be adjusted easily. This exercise highlights how to edit a component that has been added by the system. This is the quickest way to work when 3D modeling. Add the system component closest to your needs, and then edit it as necessary. We will first create a temporary construction line to help to locate the bottom right corner of the gusset plate.
We want to work in plane view, not 3d, while making cuts. Click the Add construction line icon. While holding down Ctrl, pick the top left corner of the gusset plate as a reference point. Next right-click and select Perpendicular to turn on just that snap. Pick a perpendicular snap at the column flange edge and the construction line is created.
Make sure the plate is highlighted. You will see 3 magenta boxes and one yellow. Pick the gusset plate corner 1 , see the figure below. Pick the intersection of the gusset plate edge and the construction line 2. Snap to the perpendicular point on the gusset plate edge and pick point 3. Make sure you pick the plate edge and not the gridline.
Pick the gusset plate top left corner 4. Pick the bottom corner-right on the yellow box 5 as the corner to be removed. The plate is now reshaped.
The same result may be accomplished by using the cut command. Add stiffeners We will now add stiffeners to our connection using the Multiple Stiffeners detail. In this case we are interested in setting the stiffener spacing. Create stiffeners using macro 1. Double-click on the component icon. Edit the fields shown highlighted on each of the tab pages shown below, and click Apply. Pick the column. Pick the midpoint of the gusset plate, and the stiffeners are created.
We could now explode the stiffener detail, but since we have not edited the connection objects except for the detail, we can also just leave it. This will effectively remove the item from the component and the connection in the model. Next, modify the connections at the top of the vertical bracing using the knowledge learned so that the connections look like this.
As an example we will now create plates, a polygon cut, a fitting, a bolt group and welds interactively in order to create the unusual looking connection shown below. Create plate and fitting for the beam Create default views of component views and delete the connection At grid intersection A1 at level the top of the roof beams on Basic Model 1 1.
Delete the existing connection. Create end plate for the beam We will now use the beam command to create the end plate for the beam. Start the beam command double click beam icon , and Apply the properties for the end plate shown in the dialog box below. It is possible to create plates by using either the beam or the contour plate command. In the Component front view: 4. Right click in the view, select Properties, and set view depths to 0".
This will keep distant items from showing in the view you are working in. To pick the end position, hold down the Ctrl key, and pick the intersection of the top beam flange and the toe of the column flange. The plate then appears. Move the plate into position Now move the plate into position by working in the Component Front View. Highlight the plate, right click and select the Move command. Select the left edge then the right edge of the plate. This will allow a gap for the column plate across the flange toes.
We will use the Fitting command to trim the end of the beam at the end plate. The Fitting tool will trim the end of the beam on a plane perpendicular to the view plane, which is defined by picking two points on a line.
Go to your Component Top view. Click on the Create fitting icon. Select the beam as the part to be fitted. Pick the points on the end plate corners to set the cut line for the fitting.
We will use the Component end view for ease of picking points to place the plate. We will then move the plate to the correct depth. Move the cursor over the top left corner of the end plate, and hold down the CTRL key before clicking. After you have clicked the left top corner of the end plate, release the CTRL key 5. Then move the cursor to the outside of the column flange and using the perpendicular snap, click the first point of the plate. Move the cursor to the opposite flange of the column, and use the perpendicular snap to define the next point of the plate.
Now move the mouse over the bottom right corner of the plate, and hold down the CTRL key before clicking. After you have clicked the right bottom corner of the end plate, release the CTRL key. Then use the perpendicular snap to the edge of the flange to define the third point on the plate.
Finally, use the perpendicular snap to the outside of the opposite flange to complete the plate. Move the plate 1. In the Component top view, select the column connection plate, right-click and select Move. Move the plate in the x direction and only x so that it is next to the end plate. We will now adjust the plate by moving the contour plate chamfer boxes in order to provide this.
Move Contour Plate Chamfers 1. Select the contour plate. Select one of the boxes. The vertical edge will look sloped until the bottom chamfer is modified too. This will also add the plates to the beam and column assemblies.
Release the Ctrl key and pick the end point. Tekla Structures creates the object between the starting point and the end point. All measurements are temporary.
The measurements appear in the rendered view window until you update or redraw the window. Before you start measuring, make sure that you are using appropriate snap settings. Follow the instructions that vary according to the measurement option you selected. The Mini Toolbar appears next to the mouse pointer when you select an object and fades out when you move the mouse further away or change the selection.
You can change the position of the toolbar by dragging it and locking it to a new position with the lock button in the top right corner. To customize the Mini Toolbar: 1. Move the mouse pointer on the Mini Toolbar to display it.
Click to open the Customize Mini Toolbar dialog box. Select the elements you wish to show or hide. The Preview field shows what the toolbar will look like. Include macros and user-defined attributes in the Mini Toolbar. When you measure horizontal and vertical distances, use a plane view.
The added macros and user-defined attributes are shown in the list of visible elements. The selection switches are located in the Selecting toolbar. The selection switches are described below: Select all object types, except for single bolts. Select component symbols. Select parts, such as columns, beams, and plates.
Select surface treatments. Select points. Select entire grids by selecting one line in the grid. Select single grid lines. Select welds. Select line, part, and polygon cuts, and fittings. Select model views. Select entire bolt groups by selecting one bolt in the group. Select single bolts. Select reinforcing bars and bar groups. Select planes. Select distances. When you click any object belonging to a component, Tekla Structures selects the component symbol and highlights does not select all component objects.
Objects created automatically by a component can be selected. When you click any object in an assembly or a cast unit, Tekla Structures selects the assembly or cast unit and highlights all objects in the same assembly or cast unit. Tekla Structures contains several selection filters by default.
If you use, for example, the columns filter, you can only select columns in the model. The Selection Filter list lists the standard and user-defined filters. Defining your own filters To define your own filters: Select single objects in assemblies and cast units. Select tasks. Select selection filters. The list lists both standard and user- defined selection filters.
Create your own selection filters. Find a filter which has close to the same settings as you need. Modify the settings, then enter a new name in the Save as box. Click Save as, then OK to exit. You can now choose the new filter from the list.
Selection filter example In this example we create a selection filter that selects parts whose class is two: 1. Select a row and click Delete row to remove the row. Repeat this to every row. Click Add row.
Now the Object Group - Selection Filter dialog box contains one row where you can define the filter. In the Property list, select Class. In the Value list, enter 2. Enter a unique name in the box next to the Save as button. Click Save as to save the selection filter. Use the selection filter to select the parts whose class is two. Level 0 is the highest assembly level.
The level of the selected assembly is displayed in the status bar. Level 0: Level 1: Selecting objects for reports and drawings A beam has two end plates. When you generate reports, drawings, NC files or other types of output of the beam, ensure that the Select objects in components switch is active. You can then select all the objects.
The report displays information of the beam and the end plates. Level 0 Level 1 The end plates created by a component are highlighted but are not selected, and the information of them is not displayed in the report. You can fit the work area and it is also possible to hide the work area lines. Select the model objects you want to see in the work area. The work area includes the selected objects. The objects outside the work area still exist, but they are not visible.
To fit work area using two points: 1. Pick the two points you want as corner points for the work area. The work area includes all model objects in selected views. This can be useful, for example, when creating screenshots. To hide the work area: 1. Click OK or Apply. Tekla Structures hides the work area. Select a plane. The clip plane symbol appears in the model.
Repeat step 2 to create as many clip planes as needed. To finish creating clip planes, press Esc, or right-click and select Interrupt. Select the clip plane you want to move. Click the clip plane symbol and drag it to a new location. Select the clip plane you want to delete. Click the clip plane symbol and press Delete. You can change the location of the clip plane symbol by holding down the Shift key and dragging the symbol. To enter the project information: 1. Enter the project information you want to use.
All the boxes are optional. Click User-defined attributes to open the Tekla Structures Project 1 dialog box, where you can enter additional information. Click OK to save your changes and close the Project Properties dialog box. Opening multi- user model in single-user mode To open a multi-user model in single-user mode: 1. Select the multi-user model. Right-click and select Open as single-user model from the pop-up menu. Opening single- user model in multi-user mode To open a single-user model in multi-user mode: 1.
Select the single-user model. Right-click and select Open as multi-user model from the pop-up menu. Tekla Structures prompts for the name of the server. In the Open as multi-user model dialog box, enter the server name or select it from the list, and then click OK.
A reference model is created in Tekla Structures or another software or modeling tool and imported to Tekla Structures.
For example, an architectural model, a plant design model, or a heating, ventilating and air- conditioning HVAC model can be used as a reference model. Reference models can also be simple 2D drawings that are imported and then used as a layout to directly build the model on. The contents of the Tekla Structures Project 1 dialog box depend on the Tekla Structures environment. The default tabs and options of the dialog box are different in different Tekla Structures environments.
The Model type column indicates whether the model is a single-user or a multi-user model. The button with three men indicates a multi-user model. Tekla Structures loads the reference model from the file each time you open your model. It does not save the reference model when you save the current model. The Reference Model Properties dialog box opens. Click Browse Set the scale of the reference model, if it is different from the one in the Tekla Structures for example, if it uses different measurement units.
Pick the position for the reference model origin. Tekla Structures inserts the reference model. Select a reference model from the list. Select Hidden from the Visibility list box. To update a reference model: 1. Double-click a reference model. In the Reference Model Properties dialog box, browse for the modified file by clicking the Browse In the Import dialog box, select the updated file and click OK.
Click Modify. You can see the changes between an old and new reference model by using commands in the Reference Object Properties dialog box.
Select the reference model and double-click it to display the Reference Object Properties dialog box. Browse for the name of the old file by clicking the Browse Select an option in the Show list in the Change detection section.
For example, select Changed to see the changed objects in a reference model. You can also update all the reference models in one go. To update all reference models: 1. Click Reload All. Tekla Structures goes through all the reference models and regenerates the reference models that have a newer modified date than the one already in the cache. However, this is not the recommended way to update reference models since it is time-consuming and affects the system performance.
Click Display Tekla Structures highlights the changed reference model objects. Example The following example shows how the changes are displayed in the reference model: The old file: The new file: To speed up snapping, activate only the snap switches you need.
You can classify information according to your needs. You can divide a large model into logical sections and floors to help create building schedules, lots, and erection sequences, and categorize object types, for example, based on purchasing contracts. You can categorize both native Tekla Structures objects and reference objects. Each part can belong to only one section and one story, but to several object type categories. You can create new logical areas for your own needs and add objects to the logical areas.
To create logical areas and add objects to them: 1. Create a path structure. You may create as many sections and storys as you need. Note that sections and storys are both created under buildings.
Select a section or story in Model Organizer. In the model, select the area for the section or the story. Each model object can belong to only one section and one story.
Create object type categories. You can also create subtypes for object types. In the model, select the objects you want to add to an object type category. The Model Organizer opens. Select a logical area or an object type category. The logical area or objects belonging to the selected object type category are highlighted in the model.
In large projects, you can create sites for your project by right-clicking Logical Areas and selecting Show Site s. You can hide the sites by selecting Hide Site s. In the model, select the objects you want to include in the clash check. Alternatively, if you are using Model Organizer, select the sections and storys for which you want to run the clash check.
Right-click and select Select in the Model. Click to check the objects. You can continue working during the clash check. When the clash check is complete, the status bar message changes from Clash checking in progress to Ready. To highlight a clash in the model, select a row in the list of clashes. The related model objects are selected. To zoom the active view so that the selected objects are shown in the center of the view, double-click a row. If you want to include more objects in the clash check, select the desired model objects and re-run clash check.
New clashes are appended to the end of the list. Do not run the clash check for the entire model. For best results, run the clash check only for appropriate sections and storys. In Clash Check Manager, select the clashes whose status you want to change. Right-click one of the selected rows to open a pop-up menu.
In Clash Check Manager, select the clashes whose priority you want to change. To do this, select the desired rows in the list of clashes and re-run clash check. Flag State Description none Active The default state. The clash is not new, modified, resolved, or missing. New All clashes are marked as new when they are found for the first time. Modified If the object has been modified for example, if the profile has changed , the state changes to modified when you re-run clash check.
Only certain object properties affect this flag. To see which properties have an effect, right-click one of the column headings. Both visible and hidden properties affect the flag. You can also ungroup the grouped clashes. Grouping clashes To group clashes: 1. In Clash Check Manager, select the clashes you want to group. If you want to add clashes to an already existing group, select the clashes and the group, and then repeat step 2.
Ungrouping clashes To ungroup clashes: 1. In Clash Check Manager, select the clash group you want to ungroup. Adding comments to a clash You can add comments to clashes and clash groups.
For example, you might use comments as reminders to yourself and other users. To add a comment: 1. Select the clash or clash group you want to comment on. Right-click and select Clash Information from the pop-up menu.
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