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The link is a set of Grasshopper components that can create and interact with objects live in Tekla Structures. You need to have Rhino download and Tekla Structures installed on the same machine. Grasshopper is included in the Rhino 6 and 7 install.

If you’ve already installed any version of the link and are doing an update or re-install , see the update section further down. Download the zip with the required files GrasshopperTeklaLink. Make sure you download a package targeting the installed Tekla Structures version you’d like to work with. Launch Grasshopper and drag the GrasshopperTeklaLink. A new component tab labeled Tekla [version] should appear, as well as a menu labeled Tekla in the menu bar. To update, re-install or install components for another Tekla Structures version:.

If the Tekla tab doesn’t show up, you need to unblock it as described in the previous section. If the new file targets another Tekla Structures version, the components including any already inserted ones will now interact with the new Tekla version instead. After installation, the components are visible on the Tekla component tab in Grasshopper. Make sure you have a Tekla model open before opening Grasshopper or inserting any component. The components generate, modify and interact with objects live in Tekla Structures.

The link uses the units of the currently open Rhino Document for the geometrical inputs. Select a component in Grasshopper to highlight the associated objects in Tekla Structures. Double-click the icon of a component to re-run the component manually. This operation also re-generates any deleted members in Tekla Structures. This mode means the Tekla model is updated in the background while the Grasshopper UI remains responsive. When a solution is run in this mode, components that are currently processing objects in Tekla are marked with a spinner and the objets they generate will become available at the component outputs once they are ready.

To cut the link between a Grasshopper component and the Tekla objects it has generated, right-click the component and select Bake to Tekla.

This will leave the object as-is in Tekla, and a copy of the object will be generated upon further modifications of the component input. Right-click these param components to open the context menu, where you find commands to set one or multiple objects or points in Tekla Structures. Grasshopper will be minimized and Tekla Structures will ask you to pick objects. If the objects that are connected to a component have been moved in the model, you can double-click the component to update the state of the object in Grasshopper.

The components remember the set input between Grasshopper sessions. For the construction object params, the referenced geometry will automatically be converted into corresponding Rhino geometry when plugged into other Grasshopper components. Most other referenced object types can be analyzed with the ‘Deconstruct’ components, and the solid geometry can be transferred into Grasshopper with the ‘Convert to Brep’ and ‘Convert to Mesh’ components.

In addition to the geometrical inputs, each part creating component above has the following optional inputs :. Profile: The part profile as a string. You can use the Profile Catalog component to select a profile from the Tekla Profile catalog. Attributes: The part attributes. Use the Part Attributes component to construct the input object. Position: The part position. Use the Position component to construct the input object, or use the syntax.

See more examples by hovering the Position input. Numbering: The part numbering attributes. Use the Numbering component to construct the input object. Deforming available for Beam type objects : The deforming and end offset attributes. Use the Deforming component to construct the input object. Attributes: The rebar attributes. Use the Rebar Attributes component to construct the input object. Alternatively you can connect the Reinforcement Catalog component to this input directly, or even provide just a size as a string or a number.

Hook: The hook attributes for the bar. Use the Hook component to construct the input object, or alternatively the Hooks component if you want to use different hooks for the bar ends. Cover: The cover thicknesses and offsets for the bar.

Use the Cover component to construct the input object. To create a tapered bar group, remove the grafting from the shape input and provide multiple shapes as a non-grafted list.

To create a curved bar group, the shape input should be a single arc to create several curved groups, provide a grafted list of arcs. To create a circular bar group, the shape input should be a single circle to create several circular groups, provide a grafted list of circles.

If the shape input is a list of shapes forming a tapered group , you don’t need to have a range input. If the range input is a circle or arc, and the shape input is a single curve or the shape input is grafted , the rebar group type will be tapered curved. If the range input is a curve, and the shape input is a single curve or the shape input is grafted , the shape curve will be copied along the range and the group type will be tapered.

Alternatively, you can connect the Reinforcement Catalog component directly to this input, or even provide just the size as a string or a number. Use the Hook Attributes component to construct the input object, or alternatively the Hooks Attributes component if you want to use different hooks for the bar ends. Use the Cover Attributes component to construct the input object. Group: The group type e. Use the Group Attributes component to construct the input object. Name: Use the Component Catalog component to select a component type from the model.

Once a component is selcted, the inputs it requires will become visible. Attributes: Set individual component attributes. Alternatively you can use the extension Component Variable Importer to list the attributes. Main Part, Secondary Parts and Points: Connect the required inputs as you would pick the input in the model e. Some components plugins might have a more complicated input sequence, in that case you need to use the Component Input component to construct your input.

Component Input: Connect the output of a Component Input component to handle complicated input sequences for plugins. To create several grids, remove the flattening of the input and provide a list of lists of points. You can set the part Profile either in this component or directly in the create part component.

You can put attributes in a list instead to sequentially assign them to different parts. Note that if you’re using a Panel component, multiline data on will keep the attributes as a single string same part whereas off means the output will be a list separate parts. The Number of Bars input will take effect when the spacing type is Exact Number, otherwise the Spacing values are used to distribute the bars. Inputs are the attribute name, the attribute value and the attribute type string, int or float.

Per default the attribute type is detected automatically. Right-click the component to change the output mode of the component from the context menu. By default, the profile origin is the center of the outline bounding box.

Optionally you can provide your own origin point or plane for controlling the profile rotation. This component is fairly slow as it triggers all kinds of macros in Tekla Structures, and is thus not suitable for continous updating with e. If another shape in the Shape Catalog uses the exact same geometry as the new shape, the shape can’t be added and an error message is shown. To override this there’s a right-click option for the component called “Replace similar shapes”.

Enabling this option means that any existing shapes with the same geometry will be removed from the shape catalog. If there are items in the model that use the removed shape, they will be using the new shape instead i.

The input information can be useful when trying to determine the correct input sequence for inserting a complicated Tekla component plugin from Grasshopper. Some outputs Attributes, Position, Numbering, Deforming, Type will only be calulated in case they are connected to another component can be a Panel. This is to speed up computiation by avoiding extraction of unnecessary information. Once the outputs have been connected, double-click the Deconstruct component to re-run it and calculate the values.

This means you can’t preview output values by hovering the output, unless it’s connected to something. Right-click the input node of an input component to open the context menu where you can set one or multiple objects or points in Tekla Structures.

Or use the Param components to reference objects from Tekla Structures. If used on a Tekla component, it will return component attribute values from the component as well. The Profile input is the profile name as a string, and can come from a panel, from the Profile Catalog component or from the profile output of a Get Beam component. By befault the profile curves appears around global origo. Optionally the Plane input accepts a plane or a curve onto which the profile outline will be transformed.

In case of a curve, the target plane is the plane perpendicular to the start point of the curve. The Position input can be used to set the position of the profile relative to the plane origo. Use the Position component to create the input.

Bolts and welds cannot be inserted directly from Grasshopper using these components. But they can be inserted from Grasshopper as part of a Tekla custom component or plugin. Certain object types are not supported in all older Tekla versions, including items requires Tekla Structures SP5, i SP1 or newer , bent plates , lofted slabs and plates and certain construction object types. Skip to main content. Not version-specific Tekla Structures.

 
 

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Tekla structures 2017i free

 
The Tekla Structures software can also be used to model both steel and concrete structures. Structures is loaded with many refinements and structurez fixes, whether it be drawings, collaboration, or modeling geometries. Click here to cancel reply. Your email address will not be published.

 
 

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Low-cost for accredited institutions. Use the Deforming component to construct the input object. Attributes: The rebar attributes. Use the Rebar Attributes component to construct the input object. Alternatively you can connect the Reinforcement Catalog component to this input directly, or even provide just a size as a string or a number.

Hook: The hook attributes for the bar. Use the Hook component to construct the input object, or alternatively the Hooks component if you want to use different hooks for the bar ends. Cover: The cover thicknesses and offsets for the bar. Use the Cover component to construct the input object. To create a tapered bar group, remove the grafting from the shape input and provide multiple shapes as a non-grafted list. To create a curved bar group, the shape input should be a single arc to create several curved groups, provide a grafted list of arcs.

To create a circular bar group, the shape input should be a single circle to create several circular groups, provide a grafted list of circles. If the shape input is a list of shapes forming a tapered group , you don’t need to have a range input. If the range input is a circle or arc, and the shape input is a single curve or the shape input is grafted , the rebar group type will be tapered curved.

If the range input is a curve, and the shape input is a single curve or the shape input is grafted , the shape curve will be copied along the range and the group type will be tapered.

Alternatively, you can connect the Reinforcement Catalog component directly to this input, or even provide just the size as a string or a number. Use the Hook Attributes component to construct the input object, or alternatively the Hooks Attributes component if you want to use different hooks for the bar ends. Use the Cover Attributes component to construct the input object. Group: The group type e. Use the Group Attributes component to construct the input object. Name: Use the Component Catalog component to select a component type from the model.

Once a component is selcted, the inputs it requires will become visible. Attributes: Set individual component attributes. Alternatively you can use the extension Component Variable Importer to list the attributes. Main Part, Secondary Parts and Points: Connect the required inputs as you would pick the input in the model e.

Some components plugins might have a more complicated input sequence, in that case you need to use the Component Input component to construct your input. Component Input: Connect the output of a Component Input component to handle complicated input sequences for plugins. To create several grids, remove the flattening of the input and provide a list of lists of points.

You can set the part Profile either in this component or directly in the create part component. You can put attributes in a list instead to sequentially assign them to different parts. Note that if you’re using a Panel component, multiline data on will keep the attributes as a single string same part whereas off means the output will be a list separate parts.

The Number of Bars input will take effect when the spacing type is Exact Number, otherwise the Spacing values are used to distribute the bars. Inputs are the attribute name, the attribute value and the attribute type string, int or float. Per default the attribute type is detected automatically. Right-click the component to change the output mode of the component from the context menu. Pankow: Concrete builder delivering value with Tekla Pankow achieves better cost and schedule control by self-performing.

Midland Steel: Reinforcement supplies Tekla Structures offers Midland Steel the ideal solution for building precise and constructible models. Watch the webinar. Tekla Structures for bridge designers – from road alignment to rebar detailing Engineering offices around the world are already using Tekla Structures.

Digital construction in concrete works In this webinar, Kristen Erickson from Pepper Construction tells how the use of virtual design and construction VDC and building information modeling BIM with Tekla software help them as a self-performing general contractor to improve the budget, schedule, safety and quality in concrete works.

BIM for true constructibility – build better and faster Constructibility refers to ensuring in advance that a building or structure can be built efficiently, in terms of time, resources and money.

What is BIM? Open approach to BIM – better collaboration Construction project parties should be able to work together smoothly regardless of the tools they use. Tekla Structures for education Free structural engineering and design software for students and educators Learn more at Tekla Campus. Tekla Structures interoperability and partners Improve construction efficiency with an open approach to the BIM.

Learn more.