Knowledge Base

Useful Program Features

The Knowledge Base includes technical articles on a wide array of structural analysis and design topics.

These articles are intended to help you navigate through the Dlubal programs, learn efficient tips and tricks, and provide further insight into the program features.

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Wind Simulation & Wind Load Generation

With the stand -alone program RWIND Simulation, you can simulate wind flows around simple or complex structures by means of a digital wind tunnel.

The generated wind loads acting on these objects can be imported to RFEM or RSTAB.

More About RWIND Simulation

Simplified Blast Design According to AISC Steel Design Guide 26

New

001713

Technical Article

Dynamic and Seismic Analysis

RFEM

RF-DYNAM Pro - Natural Vibrations

RF-DYNAM Pro - Nonlinear Time History

RF-DYNAM Pro - Forced Vibrations

Design

ANSI/AISC 360

Blast loads from high energy explosives, either accidental or intentional, are rare but may be a structural design requirement. These dynamic loads differ from standard static loads due to their large magnitude and very short duration. A blast scenario can be carried out directly in a FEA program as a time history analysis to minimize loss of life and evaluate varying levels of structural damage.
Parameterization of Rolled Cross-Sections

New

000879

Technical Article

Steel Structures

RFEM

RSTAB

Modeling | Structure

Rolled sections, the most common cross‑section type in RFEM and RSTAB, can also have user‑defined parameters. To do this, select the cross‑section to be modified in the cross‑section library and click the [Parametric Input...] button.
Design of Concrete Columns Subjected to Axial Compression with RF-CONCRETE Columns

New

001712

Technical Article

Concrete Structures

RFEM

RF-CONCRETE Columns

Design

Eurocode 2

This article compares the design with the one in the following article: Design of Concrete Columns Subjected to Axial Compression with RF-CONCRETE Members. It is therefore about taking exactly the same theoretical application carried out in RF-CONCRETE Members and reproducing it in RF-CONCRETE Columns. Thus, the objective is to compare the different input parameters and the results obtained by the two add-on modules for the design of column-like concrete members.
Design of Concrete Columns Subjected to Axial Compression with RF-CONCRETE Members

New

001710

Technical Article

Concrete Structures

RFEM

RF-CONCRETE

Design

Eurocode 2

This article deals with rectilinear elements whose cross-section is subjected to axial compressive force. The purpose of this article is to show how quite a lot of parameters defined in the Eurocodes for concrete column calculation are considered in the RFEM structural analysis software.
Selected Output of Eigenvalues, Including Buckling Analysis

New

000918

Technical Article

Steel Structures

Stability Analysis

PLATE-BUCKLING Stand-Alone

RF-PLATE-BUCKLING

PLATE-BUCKLING

Printout Report

You can use the selection options in the printout report to receive the detail results (in short or long form) to illustrate the individual buckling modes with the relevant buckling analysis.
Timber Beam-Column Design per NDS 2018 Using RF-/TIMBER AWC Module

New

001714

Technical Article

Timber Structures

Structural Analysis

RFEM

RF-TIMBER AWC

RSTAB

TIMBER AWC

Design

ASCE 7

ANSI/AWC NDS

In this article, the adequacy of a 2x4 dimension lumber subject to combined bi-axial bending and axial compression is verified using RF-/TIMBER AWC add-on module. The beam-column properties and loading are based on example E1.8 of AWC Structural Wood Design Examples 2015/2018.
Mass Print of Design Components

New

000996

Technical Article

RFEM

RSTAB

Results

The add-on modules for designing structural member components according to national, European, and international standards also show design results in addition to numerical output in tables graphically, as diagrams displayed on the framework.
Scaffolding Support Dependent on Normal Force

New

000973

Technical Article

Scaffolding and Rack Structures

RFEM

Modeling | Structure

Temporary structures, such as scaffolding or props, are versatile structures that can be adapted very well to different geometric conditions.
FE Mesh Settings

New

000949

Technical Article

Finite Element Analysis

RFEM

RF-GLASS

Modeling | Structure

When modeling and designing glass panes in RF‑GLASS, you have two different options for the FE mesh settings.
Additional Information for Line Supports

New

000970

Technical Article

RFEM

Modeling | Structure

For line supports, there is an option to graphically display the additional information for all directions.

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First steps

We provide information and tips to help you get started with the basic program RFEM and RSTAB.

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