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Tekla Structures i Service Pack – Download.Download and Setup Formwork Placing Tools i 1
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Tekla structures 2017i tutorials free
Download Download the Tekla education products you need. Register Register to create your free Trimble account. In this example where you have many members, you can easily import the forces from the attached excel sheet.
Tekla structures 2017i tutorials free
If you try to delete the only load group, Tekla Structures will warn you. At least one load group must exist. To delete a load group: 1. Select the load group you want to delete. To select multiple load groups, hold down the Ctrl or Shift key. Click Delete. If there are loads in any of the deleted load groups, Tekla Structures displays a warning dialog box. See also Grouping loads on page 18 Creating and modifying a load group on page 19 Working with loads and load groups on page 40 Load group properties on page 97 2.
You can detach a load from a part after you have created the load. To create loads perpendicular to sloped parts, you can shift the work plane. Before you start creating loads, define the load groups and set the current load group. See also Defining the properties of a load on page 22 Creating a point load on page 24 Creating a line load on page 25 Creating an area load on page 25 Creating a uniform load on page 26 Creating a temperature load or a strain on page 27 Creating wind loads on page 28 Distributing and modifying loads on page 31 Working with loads and load groups on page 40 Grouping loads on page 18 Combining loads on page 82 Defining the properties of a load Before you create a load, it is a good idea to define or check the load properties.
To define the properties of a load: 1. For example, click Area Load to define area load properties. In the load properties dialog box: a. Enter or modify the properties. You cannot attach a load to a part after you have created the load. Click OK to save the properties. Tekla Structures uses these properties when you create new loads of this type. See also Load properties on page 98 Load magnitude on page 23 Load form on page 24 Distributing and modifying loads on page 31 Grouping loads on page 18 Load magnitude Load magnitude can occur in x, y, and z directions.
The coordinate system is the same as the current work plane. Positive coordinates indicate a positive load direction. For example, when you create loads perpendicular to sloped parts, shifting the work plane helps you to place loads accurately.
Some load types can have several magnitude values. For example, the magnitude of line loads may vary along the loaded length. In the load properties dialog boxes, the numbering of the magnitude values relates to the order in which you pick points when you create loads. The load form of a line load defines how the load magnitude varies along the loaded length. The options are: Option Description The load magnitude is uniform across the loaded length.
The load has different magnitudes at the ends of the loaded length. The magnitude changes linearly between the ends. The load magnitude changes linearly, from zero at the ends of the loaded length, to a fixed value in the middle of the loaded length. The load magnitude changes linearly, from zero at one end of the loaded length, through two different values, back to zero at the other end.
The load form of an area load defines the shape of the loaded area. It can be: Option Description Quadrangular Triangular See also Line load properties on page 99 Area load properties on page Creating a point load You can create a concentrated force or a bending moment acting on a position.
Before you start, shift the work plane if you need to create a load perpendicular to a sloped part. In the Point Load Properties dialog box: a. Enter or modify the load properties. On the Distribution tab, select whether you want to attach the load to a part. Click OK to save the changes. If you selected to attach the load to a part, select the part.
Pick the position of the load. See also Point load properties on page 99 Defining the properties of a load on page 22 Attaching loads to parts or locations on page 31 Creating a line load You can create a linearly-distributed force or torsion between two points you pick. To create a line load: 1. In the Line Load Properties dialog box: a. Pick the start point of the load. Pick the end point of the load.
If you select the triangular load form, the points you pick define the loaded area. To create a quadrangular load form, pick three points, and Tekla Structures automatically determines the fourth corner point. To create an area load: 1. In the Area Load Properties dialog box: a. Pick three corner points for the load.
See also Area load properties on page Defining the properties of a load on page 22 Attaching loads to parts or locations on page 31 Creating a uniform load Uniform load is an area load distributed uniformly on a polygonal area. The bounding polygon is defined by at least three corner points you pick.
To create a uniform load: 1. In the Uniform Load Properties dialog box: a. If needed, pick more corner points. Pick the first point again.
If you want to create an opening: a. Pick the corner points of the opening. Pick the first point of the opening again. Click the middle mouse button to finish picking. See also Uniform load properties on page Defining the properties of a load on page 22 Attaching loads to parts or locations on page 31 Creating a temperature load or a strain You can model a temperature change in a part, or a temperature difference between two part surfaces, or a strain.
To create a temperature load or a strain: 1. In the Temperature Load Properties dialog box: a. If you want to apply a temperature load to an entire structure, enter the load in the Temperature change for axial elongation box. If you want to apply a temperature load to an entire structure, adjust the bounding box to surround all the beams and columns in the structure. To create wind loads: 1. In the Wind Load Generator 28 dialog box: a.
Pick points to indicate the shape of the building on the bottom level. Click the middle mouse button to finish. See also Wind load properties on page Wind load examples on page 28 Wind load examples Here are examples on how you can use Wind Load Generator 28 to create wind loads. Example 1 In this example, there are concentrated wind loads at the corners of a building. The zone widths are defined by using dimensions. The walls are numbered according to the picking order of the building shape.
In this example, points were picked clockwise starting from the bottom left corner of the building. Example 2 In this example, wind loads vary along the height of the building. Attaching a load to a part binds the load and the part together in the model. If the part is moved, copied, deleted, etc.
For example, you can attach a prestressing load to a part, so that the load moves with the part, and disappears if the part is deleted. If you do not attach a load to a part, Tekla Structures fixes the load to the positions you pick when you create the load. For each load, you can define the load-bearing parts by name or selection filter, and the search area the bounding box of the load. To define the load-bearing parts of a load by name: 1.
Double-click the load that you want to distribute to parts. The load properties dialog box opens. On the Distribution tab: a. Enter the part names. You can use wildcards when listing the part names. Click Modify to save the change. Before you start, check if there is a selection filter available that suits your needs.
If not, create one. To define the load-bearing parts of a load by selection filter: 1. Select the selection filter in the second list. Click Modify to save the changes. Each load has its own bounding box. You can define the dimensions of a bounding box in the x, y, and z directions of the current work plane. The dimensions are measured from the reference point, line, or area of the load. Offset distances from the reference line or area do not affect the size of the bounding box.
See also Defining load-bearing parts by name on page 32 Defining load-bearing parts by selection filter on page 33 Changing the loaded length or area of a load on page 34 3. Then define offset distances from the load reference points to set the length or area. Offset distances only apply to the outer edges of loads, not the openings in uniform loads. To define offset distances for a load: 1. Double-click a load to open its properties dialog box. See also Modifying the location or layout of a load on page 37 Moving a load end or corner using handles on page 39 3.
To change the distribution of a load: 1. Go to the Load panel tab. In the Spanning list, select whether to distribute the load in one or two directions. If you set Spanning to Single, define the primary axis direction. If you set Spanning to Double, you need to define the primary axis direction to be able to manually define the primary axis weight.
To check the primary axis direction of a selected load in a model view, click Show direction on selected loads. Tekla Structures indicates the primary direction using a red line. In the Automatic primary axis weight list, select whether Tekla Structures automatically weights the primary direction in load distribution.
If you select No, enter a value in the Weight box. In the Load dispersion angle box, define the angle by which the load is projected onto the surrounding parts. In the Use continuous structure load distribution list of a uniform load, define the distribution of support reactions in the first and last spans of continuous slabs. Example When using double spanning, automatic primary axis weight and the weight value affect the proportions of the load which is applied to the primary axis and to the perpendicular axis.
This means that the shorter the span, the bigger the proportion of the load. The Weight value does not matter. See also Load panel settings on page Distributing and modifying loads on page 31 3. Tekla Structures displays the handles and dimensions that you can use to modify the load. When you right-click a handle, Tekla Structures displays a toolbar with more functions. The available functions depend on the type of the load you are modifying. When you drag a handle, hold down the Shift key to use the snap switches.
By default, the snap switches are off to make it easier to drag the handle to any location. Right-click the handle in the load Point loads, line loads, point to move in one reference point. Click to define whether the handle wind loads can move in one or two directions. You can also press Tab when you have the handle selected.
Move a point load or Drag the handle in the load reference point All loads a load end or corner to a new location. Move a line load or a Drag a line handle to a new location. Line loads, area loads, load edge uniform loads, temperature loads, wind loads Show or hide diagonal 1.
Right-click a handle. Line loads, area loads, dimensions uniform loads, 2. Select the dimension arrowhead which wind loads you want to move. To change the dimension at both ends, select both arrowheads. Using the keyboard, enter the value with which you want the dimension to change. To start with the negative sign – , use the numeric keypad.
Show or hide the 1. Uniform loads midpoint handles of a uniform load 2. Add corner points to a Uniform loads Drag a midpoint handle to a new uniform load location. Remove points from a 1. Select one or more reference points. Uniform loads uniform load 2. Press Delete. You can use these handles to move load ends and corners when you do not want to use direct modification. To move a load end or corner: 1. Ensure that the Direct modification switch is not active. Select a load to display its handles.
When you select a load, the handles are magenta. For line loads, the handle of the first end is yellow. Click the handle you want to move.
Tekla Structures highlights the handle. Move the handle like any other object in Tekla Structures. If you have Drag and Drop on, just drag the handle to a new position. This ensures that loads are not too small to see, or so large that they hide the structure.
To scale loads in model views: 1. On the Arrow length tab, enter the minimum and maximum sizes for load types. Example Define that point loads with magnitude of 1 kN or less are mm high in the model, and that point loads with magnitude of 10 kN or more are mm high. Tekla Structures linearly scales all point loads that have magnitudes between 1 kN and 10 kN between mm and mm.
See also Working with loads and load groups on page 40 4. Tekla Structures also shows more information about the load in the Inquire Object dialog box and highlights the parts that carry the load. To check a load: 1. In a model view, select a load. Right-click and select Inquire from the pop-up menu. Tekla Structures shows the load group and the magnitude in the model view and highlights the parts that carry the load.
The Inquire Object dialog box also opens and shows more information about the load. See also Finding out to which load group a load belongs on page 42 Finding out which loads belong to a load group on page 43 Checking loads using reports on page 43 Finding out to which load group a load belongs You can check to which load groups selected loads belong. To find out to which load group a load belongs: 1. Select a load in the model. To select multiple loads, hold down the Ctrl or Shift key.
In the Load Groups dialog box, click Load groups by loads. Tekla Structures highlights the load group in the dialog box. See also Checking a load on page 41 Finding out which loads belong to a load group on page 43 Checking loads using reports on page 43 Finding out which loads belong to a load group You can check which loads belong to a selected load group.
To find out which loads belong to a load group: 1. Select a load group from the list. Click Loads by load groups. Tekla Structures highlights the loads of the load group in the model. See also Finding out to which load group a load belongs on page 42 Checking loads using reports on page 43 Checking loads using reports You can create reports of loads and load groups, and use them to check load and load group information. When you select a row that contains an ID number in a load report, Tekla Structures highlights and selects the corresponding load in the model.
To move loads to another load group, do one of the following: To Do this Change the load group of a load 1. Double-click a load in the model. Select a new load group in the Load group name list. Click Modify. Move loads to another load group 1. Select the loads in the model.
Click Change load group. Before you start, ensure that you have created the relevant load groups. To export load groups: 1. Select the load group or groups to export. Click Export In the Export Load Groups dialog box: a. Browse for the folder to which you want to save the load group file.
Enter a name for the file in the Selection box. The file name extension of a load group file is. See also Importing load groups on page 45 Grouping loads on page 18 4. Before you start, ensure that you have the relevant load groups exported to a file. To import load groups: 1. In the Load Groups dialog box, click Import In the Import Load Groups dialog box: a.
Browse for the folder where the load group file is. Select the load group file. To define properties for an analysis model: 1. In the Analysis Model Properties dialog box: a. Enter a unique name for the analysis model. For example, you can use a name that describes the portion of the physical model you want to analyze. Select the creation method for the analysis model.
Whichever method you choose, you can easily add and remove objects later. If you select By selected parts and loads or Floor model by selected parts and loads, select the parts and loads in the physical model. To make the analysis model more accurate, select a filter from the Secondary member filter list. On the Analysis tab, change the analysis method if you need to run a non-linear analysis. If needed, define other analysis model properties. See also Analysis model properties on page Including objects in analysis models on page 48 Selecting the analysis application on page 50 Creating an analysis model on page 50 5.
Tekla Structures includes or ignores some objects automatically. The available analysis model creation methods are: Option Description Full model Includes all main parts and loads, except for parts whose analysis class is Ignore. Tekla Structures automatically adds physical objects to the analysis model when they are created. By selected parts and loads Only includes selected parts and loads, and parts created by components. See also Analysis model filter on page 49 Creating an analysis model on page 50 Adding objects to an analysis model on page 62 Removing objects from an analysis model on page 63 Changing the creation method of an analysis model on page 54 Analysis model filter You can use an analysis model filter to select parts to include in or exclude from an analysis model.
The analysis model filter works in a similar way to the selection filter, but Tekla Structures saves the settings with the analysis model properties. This means that you can check the criteria you used to select objects. Tekla Structures automatically adds the new objects you create in the physical model to the analysis model if they fulfill the criteria in the analysis model filter.
Use the analysis model filter to filter out non-structural parts, such as railings, from the analysis model. You can also transfer analysis data in several formats.
Before you start, ensure that you have the relevant analysis application, or applications, and Tekla Structures installed on your computer. You also have to install a direct link between Tekla Structures and each analysis application.
If you do not have these installed, you will not be able to see and select any analysis application options. To define which analysis application, or format, to use for an analysis model: 1. Select the analysis application from the Analysis application list on the Analysis model tab. See also About analysis applications on page 12 Linking Tekla Structures with an analysis application on page 12 5. Before you start, create the parts and loads you want to include in the analysis model.
To create an analysis model of an entire physical model and a load model: 1. In the Creation method list on the Analysis model tab, select Full model. If needed, enter or modify the remaining analysis model properties. Tekla Structures automatically adds physical objects to the Full model analysis models when the objects are created. See also Defining basic properties for an analysis model on page 47 Analysis model properties on page Modifying analysis models on page 53 Changing the creation method of an analysis model on page 54 Creating an analysis model for specific parts and loads You can create an analysis model that includes the selected parts and loads.
To create an analysis model for specific parts and loads: 1. Select the objects you want to include in the analysis model. In the Creation method list on the Analysis model tab, select By selected parts and loads or Floor model by selected parts and loads.
See also Defining basic properties for an analysis model on page 47 Analysis model creation method on page 49 Analysis model properties on page Adding objects to an analysis model on page 62 Removing objects from an analysis model on page 63 Changing the creation method of an analysis model on page 54 Creating a modal analysis model You can create modal analysis models of Tekla Structures models.
In modal analysis models, resonant frequency and the associated pattern of structural deformation called mode shapes are determined, instead of performing stress analysis. Before you start, create the parts you want to include in the analysis model.
To create a modal analysis model: 1. If you want to create an analysis model for specific parts, select them in the model. On the Analysis tab, select Yes in the Modal analysis model list.
Select an analysis model. Click Select objects. Tekla Structures highlights and selects the parts and loads in the physical model. To remove the highlighting, click the view background. Select the analysis model to modify. Click Properties Modify the properties. If you change the secondary member filter, select the Reapply to all parts check box to apply the change to all parts in the analysis model.
If you do not select the Reapply to all parts check box, Tekla Structures will use the new filter only for the new parts in the analysis model. For more Tekla structures Tutorials go to my channel. Working with grids 3. Creating concrete columns 5. Learn more and. Also familiarize yourself with the selection switches and snap switches available in the drawing mode. Find out how the drawing mode in Tekla Structures works.
Start learning Tekla Structures 2. This tutorial has subtitles in 11 languages. Using Masonry and Wood Component. In this short video we give an overview of the new Create Fabrication Drawing function in Tekla Structures How drawings and the model interact with each other and how drawing types and drawing levels work.
Learn how to work with drawings in Tekla Structures. Drawings Find out how drawings work in Tekla Structures. You will be familiar with the read-made components for rebar detailers and know how to use Trimble Connect in cast-in-place and rebar projects. The course consists of a series of modules showing you the essentials for working with Tekla Structural Designer 1. When upgrading to a newer Tekla Structures version, you can use the Migration Wizard tool to copy the settings you have changed.
Skip to main content. Tekla Structures settings in Windows registry Tekla Structures. Tekla Structures settings in Windows registry Windows registry is a hierarchical database that stores configuration settings and options in Microsoft Windows operating systems. TT Points are now created correctly at the intersections of parts and lines. Previously, when the line intersected the part through a recess or a hole in the middle of a part face, an incorrect number of points was created.
TTSD It is now possible to visualize model objects by using only identifiers. Drawings
11 ways for beginners to learn Tekla Structures – TSGuide – Download your full FREE Tekla Structural Designer trial now and change the way you work today!
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. There are videos about Tekla in different languages, but luckily, most are in English.