How to Download, Install, Activate, and Use Robot Structural Analysis Professional 2019 X Force 2019 X64.exe.iso
Robot Structural Analysis Professional 2019 X Force 2019 X64.exe.iso: A Complete Guide
If you are looking for a powerful and reliable software for structural design and analysis, you might want to consider Robot Structural Analysis Professional 2019. This software is part of the Autodesk Architecture, Engineering & Construction Collection, and it can help you create more resilient, constructible, and code-compliant structures. However, to use this software, you need a valid product key and an activation code, which can be obtained by using X Force 2019 X64.exe.iso. In this article, we will show you how to download, install, activate, and use Robot Structural Analysis Professional 2019 with X Force 2019. Read on to find out more.
Robot Structural Analysis Professional 2019 X Force 2019 X64.exe.iso
Download File: https://www.google.com/url?q=https%3A%2F%2Furlcod.com%2F2ulbuN&sa=D&sntz=1&usg=AOvVaw2gbB8eCXKyvaTjGNJpVVsf
How to download and install Robot Structural Analysis Professional 2019
Before you can use Robot Structural Analysis Professional 2019, you need to download and install it on your computer. Here are the steps you need to follow:
System requirements
First of all, you need to make sure that your computer meets the minimum system requirements for running Robot Structural Analysis Professional 2019. According to Autodesk, these are:
Operating system: Microsoft Windows 10 (64-bit edition), Microsoft Windows 8.1 (64-bit edition), or Microsoft Windows 7 (64-bit edition) with Service Pack 1
Browser: Microsoft Internet Explorer 11 or later
Processors: Detailed list not defined (required support of SSE2 or higher instruction set)
Memory: 8 GB RAM or more
Display: At least 1280 x 1024 monitor and display adapter capable of 24-bit color. Dedicated video card with hardware support for OpenGL spec 1.4 or later and support for DirectX 9 or later
Disk space: 1 GB free disk space for the installation (5 GB if not installed from DVD) + 5 GB free disk space left after installation
Pointing device: MS-Mouse compliant
Internet connection: Internet connection for registration and cloud licensing/analysis if used
Additional requirements: For the Results Connect application, Microsoft Office Excel 2010 or 2013, 32-bit or 64-bit
Download options
There are two main ways to download Robot Structural Analysis Professional 2019: from the Autodesk website or from a torrent site. The first option is more secure and legal, but it requires an Autodesk account and a subscription plan. The second option is more risky and illegal, but it does not require any need to follow:
In the X Force 2019 window, click on the Mem Patch button. You should see a message saying "Successfully patched".
In the X Force 2019 window, select Robot Structural Analysis Professional 2019 from the drop-down list of products. You should see a product key that matches your software. Copy this product key and save it somewhere.
Launch Robot Structural Analysis Professional 2019 on your computer. You should see a window asking you to activate your product. Click on Enter a Serial Number.
Enter the product key that you copied from X Force 2019 and click on Next.
Select I have an activation code from Autodesk and click on Next.
Go back to the X Force 2019 window and click on the Generate button. You should see an activation code that consists of several groups of numbers and letters. Copy this activation code and save it somewhere.
Go back to the Robot Structural Analysis Professional 2019 window and paste the activation code in the corresponding fields. Click on Next.
You should see a message saying "Thank you for activating your Autodesk product". Click on Finish to complete the activation process.
How to use Robot Structural Analysis Professional 2019 for structural design and analysis
Now that you have activated Robot Structural Analysis Professional 2019, you can start using it for your structural design and analysis projects. Here are some of the main features and tools that you can use:
Overview of the main features and tools
Robot Structural Analysis Professional 2019 is a comprehensive software that offers a range of features and tools for structural design and analysis. Some of the main features and tools are:
A user-friendly interface that allows you to access various commands, options, menus, toolbars, panels, and windows.
A project browser that allows you to manage your project data, such as models, loads, results, reports, and drawings.
A modeler that allows you to create and modify your structural model using various elements, such as nodes, bars, plates, walls, foundations, supports, openings, and loads.
An analysis engine that allows you to perform various types of analysis, such as static, modal, nonlinear, buckling, seismic, dynamic, thermal, and wind tunnel.
A results manager that allows you to view and manipulate your analysis results, such as displacements, forces, stresses, strains, reactions, modes, frequencies, and diagrams.
A report generator that allows you to create and customize your reports using various templates, formats, styles, and contents.
An exporter that allows you to export your model data and results to other software or formats, such as Revit, AutoCAD, Excel, PDF, XML, or DXF.
How to create a new project and import data from Revit or other software
To start using Robot Structural Analysis Professional 2019 for your project, you need to create a new project and import your data from Revit or other software. Here are the steps you need to follow:
Open Robot Structural Analysis Professional 2019 on your computer. You should see a welcome screen with some options. Click on New Project.
You should see a dialog box asking you to enter some information about your project. Enter a name for your project and select a unit system. You can also select a template or a standard if you want to use some predefined settings. Click on OK.
You should see a blank workspace with some panels and toolbars. To import your data from Revit or other software, go to the File menu and select Import. You should see a list of supported formats and software. Select the one that matches your data source.
You should see a dialog box asking you to browse for your file or connect to your software. Follow the instructions on the screen to locate or link your file or software. Click on OK.
You should see your data imported into Robot Structural Analysis Professional 2019 as a structural model. You can use the modeler tools to modify or add elements if needed.
How to perform static, modal, and nonlinear analysis
To perform static, modal, or nonlinear analysis on your structural model, you need to use the analysis engine tools. Here are the steps you need to follow:
Static analysis
Static analysis is the most basic type of analysis that calculates the equilibrium state of your structure under static loads. To perform static analysis, you need to define the load cases and the load combinations that you want to analyze. Here are the steps you need to follow:
Go to the Loads menu and select Load Cases. You should see a dialog box with a list of load cases. A load case is a set of loads that act on your structure simultaneously.
Click on the Add button to create a new load case. You should see a dialog box asking you to enter some information about your load case. Enter a name and a description for your load case. You can also select a type, a category, and a nature for your load case. Click on OK.
Repeat steps 2 and 3 for each load case that you want to create. You can create as many load cases as you need, such as dead load, live load, wind load, snow load, etc.
Go to the Loads menu and select Load Combinations. You should see a dialog box with a list of load combinations. A load combination is a linear combination of load cases that represents the most critical loading condition for your structure.
Click on the Add button to create a new load combination. You should see a dialog box asking you to enter some information about your load combination. Enter a name and a description for your load combination. You can also select a type, a category, and a standard for your load combination.
In the lower part of the dialog box, you should see a table with the load cases and their coefficients. Enter the coefficients for each load case that you want to include in your load combination. The coefficient is a factor that multiplies the intensity of the load case. For example, if you enter 1.5 for dead load, it means that the dead load is increased by 50% in this load combination.
Repeat steps 5 and 6 for each load combination that you want to create. You can create as many load combinations as you need, such as ultimate limit state, serviceability limit state, etc.
Go to the Analysis menu and select Calculate. You should see a dialog box asking you to select the analysis type and the calculation options. Select Static Analysis as the analysis type and click on OK.
The analysis engine will start calculating your structure under the defined load cases and load combinations. You can monitor the progress and status of the calculation in the status bar at the bottom of the screen.
When the calculation is finished, you can view and manipulate your results using the results manager tools.
Modal analysis
Modal analysis is a type of analysis that calculates the natural frequencies and modes of vibration of your structure under no external loads. To perform modal analysis, you need to define the modal parameters that you want to analyze. Here are the steps you need to follow:
Go to the Analysis menu and select Modal Parameters. You should see a dialog box with some options for defining your modal parameters.
Select the method that you want to use for calculating your modal parameters. You can choose between Lanczos or Subspace Iteration methods.
Enter the number of modes that you want to calculate. This is the number of natural frequencies and modes of vibration that you want to obtain.
Select the mass matrix that you want to use for calculating your modal parameters. You can choose between Consistent or Lumped mass matrices.
Select the damping matrix that you want to use for calculating your modal parameters. You can choose between Rayleigh or Modal damping matrices.
If you choose Rayleigh damping matrix, enter the values of alpha and beta coefficients. These are factors that define the damping ratio for each mode.
If you choose Modal damping matrix, enter the values of damping ratios for each mode.
Click on OK to save your modal parameters.
Go to the Analysis menu and select Calculate. You should see a dialog box asking you to select the analysis type and the calculation options. Select Modal Analysis as the analysis type and click on OK.
The analysis engine will start calculating your structure's natural frequencies and modes of vibration. You can monitor the progress and status of the calculation in the status bar at the bottom of the screen.
When the calculation is finished, you can view and manipulate your results using the results manager tools.
Nonlinear analysis
Nonlinear analysis is a type of analysis that calculates the behavior of your structure under nonlinear conditions, such as large deformations, material nonlinearity, geometric nonlinearity, or contact nonlinearity. To perform nonlinear analysis, you need to define the nonlinear parameters that you want to analyze. Here are the steps you need to follow:
Go to the Analysis menu and select Nonlinear Parameters. You should see a dialog box with some options for defining your nonlinear parameters.
Select the type of nonlinearity that you want to include in your analysis. You can choose between Material Nonlinearity, Geometric Nonlinearity, or Contact Nonlinearity.
If you choose Material Nonlinearity, select the material model that you want to use for your nonlinear elements. You can choose between Elastic-Plastic, Elastic-Perfectly Plastic, or Ramberg-Osgood models.
If you choose Geometric Nonlinearity, select the geometric model that you want to use for your nonlinear elements. You can choose between Large Displacement or Large Strain models.
If you choose Contact Nonlinearity, select the contact model that you want to use for your nonlinear elements. You can choose between Bonded, No Separation, Frictionless, or Coulomb Friction models.
For each type of nonlinearity that you choose, enter the values of the parameters that define the nonlinear behavior of your elements. For example, if you choose Elastic-Plastic material model, enter the values of yield stress and hardening modulus.
Click on OK to save your nonlinear parameters.
Go to the Analysis menu and select Calculate. You should see a dialog box asking you to select the analysis type and the calculation options. Select Nonlinear Analysis as the analysis type and click on OK.
The analysis engine will start calculating your structure under nonlinear conditions. You can monitor the progress and status of the calculation in the status bar at the bottom of the screen.
When the calculation is finished, you can view and manipulate your results using the results manager tools.
How to test wind loads and verify code compliance
One of the advantages of using Robot Structural Analysis Professional 2019 is that it allows you to test wind loads and verify code compliance for your structure. Wind loads are external forces that act on your structure due to wind pressure or suction. Code compliance is the conformity of your structure to the standards and regulations of your country or region. Here are some of the features and tools that you can use:
How to test wind loads
To test wind loads on your structure, you need to use the wind tunnel tool. This tool allows you to simulate wind flow around your structure and calculate wind pressures and forces on each element. Here are the steps you need to follow:
Go to the Loads menu and select Wind Tunnel. You should see a dialog box with some options for defining your wind tunnel parameters.
Select the wind direction that you want to test. You can choose between X, Y, or Z axis, or enter a custom angle.
Select the wind profile that you want to use. You can choose between Constant, Power Law, or Logarithmic profiles, or enter a custom profile.
Enter the wind speed that you want to use. You can enter a constant value or a variable value depending on the height of your structure.
Select the wind load type that you want to use. You can choose between Pressure or Force loads, or both.
Select the elements that you want to include in your wind tunnel analysis. You can select all elements or specific elements by type, group, or selection.
Click on OK to start the wind tunnel analysis. You should see a window with a 3D view of your structure and the wind flow around it. You can use the toolbar to control the animation, zoom, rotation, and display of your wind tunnel.
You can also use the tabs at the bottom of the window to view the wind pressures and forces on each element. You can use the filters to select the elements by type, group, or selection. You can also use the table to sort, filter, and export the data.
How to verify code compliance
To verify code compliance for your structure, you need to use the code checking tool. This tool allows you to check your structure against the standards and regulations of your country or region. Here are the steps you need to follow:
Go to the Design menu and select Code Checking. You should see a dialog box with some options for defining your code checking parameters.
Select the code that you want to use for your code checking. You can choose from a list of supported codes for different countries and regions, such as ACI 318-14 for USA, Eurocode 2 for Europe, BS 8110-97 for UK, etc.
Select the elements that you want to include in your code checking. You can select all elements or specific elements by type, group, or selection.
Select the load combinations that you want to use for your code checking. You can select all load combinations or specific load combinations by type, category, or selection.
Click on OK to start the code checking analysis. You should see a window with a 3D view of your structure and the code checking results on each element. You can use the toolbar to control the display of your code checking results.
You can also use the tabs at the bottom of the window to view the detailed results for each element. You can use the filters to select the elements by type, group, or selection. You can also use the table to sort, filter, and export the data.
How to generate reports and export results
After you have performed your analysis and design on your structure, you may want to generate reports and export results for documentation and presentation purposes. Robot Structural Analysis Professional 2019 offers various features and tools for this task. Here are some of them:
How to generate reports
To generate reports on your structure, you need to use the report generator tool. This tool allows you to create and customize your reports using various templates, formats, styles, and contents. Here are the steps you need to follow:
Go to the File menu and select Report Generator. You should see a dialog box with some options for defining your report parameters.
Select the template that you want to use for your report. You can choose from a list of predefined templates for different types of reports, such as Model Data, Analysis Results, Design Results, etc. You can also create your own template or modify an existing one.
Select the format that you want to use for your report. You can choose from a list of supported formats, such as PDF, HTML, RTF, TXT, etc.
Select the style that you want to use for your report. You can choose from a list of predefined styles for different aspects of your report, such as fonts, colors, margins, headers, footers, etc. You can also create your own style or modify an existing one.
Select the contents that you want to include in your report. You can choose from a list of available contents for different sections of your report, such as title page, table of contents, introduction, model data, analysis results, design results, conclusion, etc. You can also add your own contents or modify existing ones.
Click on OK to generate your report. You should see a window with a preview of your report. You can use the toolbar to control the display and printing of your report.
You can also save your report as a file or send it by email using the File menu options.
How to export results
To export results on your structure, you need to use the exporter tool. This tool allows you to export your model data and results to other software or formats, such as Revit, AutoCAD, Excel, PDF, XML, or DXF. Here are the steps you need to follow:
Go to the File menu and select Export. You should see a dialog box with some options for defining your export parameters.
Select the type of data that you want to export. You can choose between Model Data