Revit and Autodesk Inventor Interoperability

Introduction

Autodesk Inventor 2014 has added capability to enhance the interoperability with Autodesk Revit in the BIM workflow. In this webcast you will see how using Inventor’s new BIM Simplify tools you can now get a Part ready to export to a .RFA to be used in Revit. A native Revit Family file can be exported using Export Building Components in the BIM Exchange environment for Part documents. In addition, Connectors, Properties, Parameters, Orientation, Category and Insertion Point information can be added to the Revit Family file format.

An exciting link from the excerpts of YouTube that shows the interchangeability of Revit and Inventor.

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Creating Building Pads in Revit

The terrain is called a “Toposurface” in Revit, and an Autodesk Revit “Building Pad” will automatically cut through a toposurface.  Usually this cutting boundary follows an outline of your building’s basement walls or follows along a retaining wall.

The building pad is a toposurface hosted element and can be added only to an existing topographical surface. This Building Pad tool will be activated in the Model Site panel only if there is an existing toposurface in the drawing.

                                                                        Building Pad

While creating a building pad, sometimes it is necessary to provide a slope for drainage facilities. Revit allows you to add slopes using the Slope Arrow tool to the building pads.

Sloped Arrow for sloping Building Pad

Sloped Building Pad

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Project Octopus: Autodesk

About:

Project Octopus is a free technology preview that allows designers and engineers using Autodesk Robot Structural Analysis to seamlessly access data and results with Microsoft Office Excel.

Overview

Project Octopus helps designers to easily develop "user defined" calculations that complement Autodesk Robot Structural Analysis results. Project Octopus is fully integrated in Microsoft Office Excel as an Addin and allows accessing data and results from an Autodesk Robot Structural Analysis model using simple Excel formulas. Users are able to select a formula from a predefined list using wizard dialogs or using typical Microsoft Office Excel workflows. Each formula takes as arguments a set of parameters that can be written directly inside the formula, which may come from specific cells or from an active selection within Robot Structural Analysis. Once the link has been made with Project Octopus, data is available for post processing with Excel formulas, graphs, pivot tables, and other methods present in the application.

With this approach, Project Octopus enables a dynamic link between Autodesk Robot Structural Analysis and Microsoft Office Excel, eliminates copy/paste or CSV import/export steps, and removes the need for programing skills and knowledge of Autodesk Robot Structural Analysis API to extract data for use in spreadsheets.

Availability

Project Octopus will be available until June 1, 2014.

System Requirements

- Autodesk Robot Structural Analysis Professional 2014

- Windows Platform

• Windows 8 (64-bit)
• Windows 7 (64-bit)

- Microsoft Office

• Microsoft Office Excel 2013 (32-bit and 64-bit)
• Microsoft Office Excel 2010 (32-bit and 64-bit)

The system requirements for the Project Octopus are the same as the 64-bit version of the System Requirements for Autodesk Robot Structural Analysis Professional 2014 software. Note that it is highly recommended to keep software up-to-date.

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Exploring Autodesk Revit MEP 2014: Available on Amazon

Exploring Autodesk Revit MEP 2014

Exploring Exploring Autodesk Revit MEP 2014 textbook covers the detailed description of all basic and advanced concepts as well as the usage of the tools and commands of Autodesk Revit MEP 2014. It explores the processes involved in Building Information Modeling.. The topics covered in this textbook range from creating building components, HVAC system, electrical system, plumbing system. fire protection system to designing conceptual massing, performing HVAC heating and loading analysis, and creating rich construction documentation.

In this textbook, special emphasis has been laid on the concepts of space modeling and tools to create systems for all disciplines (MEP). Each concept in this textbook is explained using the detailed description and relevant graphical examples and illustrations. The accompanying tutorials and exercises, which relate to the real world projects, help you understand the usage and abilities of the tools available in Autodesk Revit MEP. In addition, the chapters in this textbook are punctuated with tips and notes to make the concepts clear, thereby enabling the readers to create thier own innovative projects.

Click on the link https://www.createspace.com/4641465 to get a copy now.

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New Feature: Autodesk 360 Structural Analysis

New Feature in Autodesk 360: Structural Analysis

here is a new  feature  available for users of Structural Analysis 360, the cloud based analysis service for Autodesk Revit Structure.  

Users of the service are now able to view and investigate the analytical model used by the analysis service directly from within their WebGL enabled web browser.

Once a model has been pushed to the cloud for analysis, users will be able to access a convenient 3D model viewer at anytime to view the analytical model that has been submitted to the cloud. The model will show nodes, bars, panels, meshes, supports, and loads that have been previously defined. The viewer also contains tool to allow you to inspect warnings and errors in the analytical model, allowing you to edit the source design to address issues that may have been created during the design process. Users can access this feature from within the online results report, or the projects dashboard.

Try Structural Analysis 360 today, and let us know your experiences with the convenient feedback tool available directly from the service dashboard.

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Autodesk Flow Design

About
Project Falcon will be moving forward into the world as Autodesk Flow Design. The product itself is an updated version of Falcon with an improved user interface for the stand-alone version (PC and Mac) and some upgrades inside Inventor and Revit. The AutoCAD plug-in may come back later. A lot of the work that went into it was motivated by feedback from the Autodesk Labs users. The team has tried to make it easy to access Flow Design as well. It is sold on e-store on a monthly and annual basis for a relatively low price. It will also be on the Education Community site for students and faculty free of charge.

Here are the features honed by the Autodesk Labs community:

• 64-bit solver process with greater access to memory
• Expanded graphics card and driver support
• Voxel size and overall tunnel size information
• Solution status indicator
• Ability to key-in specific values for velocity, resolution, orientation, etc.
• Expanded CAD imports (ipt, iam, sldprt, prt, x_t, STEP, etc.)
• Ribbon-style controls, standard menus, and model navigation cube
• Color banding and contour display options
• Revised tunnel and flow line seed box size controls
• Improved video recording controls and feedback
• Simplified iso-surface controls
• Saved run configurations for fast recall of past runs
• Multi-axis wind tunnel orientation control inside Inventor
• Pressure shading on building surfaces inside Revit
• Wind velocity profile option inside Revit.

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Creating Roof in Revit

A roof is a structure that covers the uppermost part of a building. The function of a roof is to protect the building and its contents from the effects of weather. The primary function of a roof is to protect the building and its contents from rain.

In Revit Architecture, you can create roof structure using tools provided in the Roof drop-down in the Build panel of Architecture tab. 

Roof by Footprint 

The roof footprint is a two dimensional sketch of the perimeter of a roof. In Autodesk Revit, you can create a roof footprint by drawing lines or picking walls that will define the perimeter of the roof to be created. If you are in the Level 1 and wanted to create roof on second floor then on choosing the Roof by Footprint tool; the Lower Level Notice dialog box is displayed prompting you to create a roof on second floor. Choose Yes; the Modify | Create Roof Footprint tab is displayed. Now, create roof using the sketching tools, as shown in Figure 1. While creating, you will notice a triangle on each line which represents slope. If wanted to remove slope from any plane just select that plane and clear the Define Slope check box from the Options Bar.  Now, choose the Finish Edit Mode tool to complete sketching of roof.

Figure 1 Sketched roof

Use the Default 3D tool to view the model in 3D view, as shown in Figure 2.

Figure 2 3D view of roof

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