Autodesk revit 2014
I also imported an IFC model from Tekla to Revit with some fairly good results that are fine for coordination purposes. See the below image including the report. I tried this on a few beams and columns and again found no discrepancies with the original Revit Structure 2014 model, however, as you would expect the stairs translated to a bounding box. This is clearly useful rather than building a model from scratch. However, you can convert certain objects from the IFC file to native Tekla objects such as beams, columns, footings etc. The main purpose of the IFC import into Tekla is to allow the fabricator to accurately build a model from the consultants Revit model. I actually found no discrepancies with between the two models. The results are very promising in Tekla Structures 19.1, see the image below. This incorporates two pitched roofs and some curved members including steel cuts. I tested the IFC export with the Below Revit Model. Unfortunately the SDNF import does not seem to work with either V2.0 or V3.0. I have tested the IFC import and export and also the CIM steel import from Tekla Structures 19.1 to Revit Structure 2014. All the problems now seem to be fixed with the new Revit 2014 IFC import and export.
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As you will read from my previous post this was not always that successful. In previous versions Tekla have supplied a Revit add-in to import and export a Tekla model, this was using IFC. Since the first batch of tests I ran back in May things have improved with the IFC import and export and this of course affects how we can share models between Tekla Structures and Revit.
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Form more information see my YouTube Video: Here is another example where the path is travelling through 3D space. The piles can be scheduled if you have set the family to use the Shared property. You can now load this back into your project. Select the pile and then choose the Repeat command as shown below. On the Create Ribbon use the component tool and insert your pile at the end of your path making sure that you snap it on one of the points. Next you load in your adaptive pile family. In this example the width of the sheet pile is 900. Note that I have set the layout to Fixed Distance and the Measurement Type to Chord Length. You can then configure the divided path within the Properties Palette. It’s worth remembering that you can of course import a CAD file or an image into his family to help with the layout. Start a new Metric Generic Model Adaptive.rft family and then draw your intended path for the pile component. Place a normal Revit point and make this adaptive as shown below. You then create a Metric Generic Model Adaptive.rfa family and insert the pile family into this. Make sure that you set the pile to always be vertical within the Family Categories & Parameters otherwise you may find that you have horizontal piling! I downloaded a profile of a sheet pile and then used this to create a simple extrusion with a parameter to control the pile depth. The Pile family is modelled within a column family template. The first stage is to model your pile family. I have found that the best current system for the modelling of sheet piling is to use adaptive components and then apply this to a divided path.
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On a recent customer project we had to model some sheet piling and in previous projects I had used curtain systems to produce the layout with mixed results. I thought it was about time to produce a post and tutorial on piled wall such as sheet piling, contiguous and secant piled systems.