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.

Search

Fulltext

Keyword

Type

Why Dlubal Software?

Solutions

More than 45,000 users in 95 countries
One software package for all application areas
Free support provided by experienced engineers
Short learning time and intuitive handling
Excellent price/performance ratio
Flexible modular concept, extensible according to your needs
Scalable license system with single and network licenses
Proven software used in many well-known projects

Designing Reinforced Concrete Compression Elements Subjected to Biaxial Bending with the Nominal Curvature Method

New

001577

Technical Article Concrete Structures Bridges Process Plant Construction RFEM RF-/CONCRETE Columns EC2 for RFEM/RSTAB RSTAB Design Eurocode 2

Daily tasks in reinforced concrete design also include designing compression elements subjected to biaxial bending. The following article describes the different methods according to Chapter 5.8.9, EN 1992-1-1, which can be used to design compression elements with biaxial load eccentricities by means of the nominal curvature method according to 5.8.8.
Elastic-Plastic Cross-Section Design

New

001576

Technical Article Steel Structures RFEM RF-/STEEL EC3 RSTAB Design Eurocode 3

The following article describes designing a two-span beam subjected to bending by means of the RF-/STEEL EC3 add-on module according to EN 1993-1-1. The global stability failure will be excluded due to sufficient stabilizing measures.
Working with the Project Manager

New

001575

Technical Article RFEM RSTAB SHAPE-THIN RX-TIMBER Data Management

The Project Manager is installed by default when installing RFEM and RSTAB and manages all projects and calculation files. In the Project Manager, you can link different projects to have a clear overview of the program files.
Differences Between the Analytical and Nonlinear Deformation Analysis of Reinforced Concrete

New

001574

Technical Article Concrete Structures Structural Analysis & Design Finite Element Analysis Nonlinear Analysis RFEM RF-CONCRETE RF-CONCRETE Deflect RF-CONCRETE NL Calculation Eurocode 2

Different methods are available for calculating the deformation in the cracked state. RFEM provides an analytical method according to DIN EN 1992-1-1 7.4.3 and a physical-nonlinear analysis. Both methods have different features and can be more or less suitable depending on the circumstances. This article will give an overview of the two calculation methods.
Calculating Timber Panel Walls | 1. Determining the Ultimate Limit State and Stiffness

New

001573

Technical Article Timber Structures Structural Analysis & Design Finite Element Analysis RFEM RF-/TIMBER AWC RF-/TIMBER CSA RF-/TIMBER NBR RF-/TIMBER Pro RF-/TIMBER SANS RSTAB Design Eurocode 5

The stiffening of timber structures is usually carried out by means of timber panels. For this purpose, structural components consisting of slabs (chipboards, OSB) are connected with members. Several articles will describe the basics of this construction method and the calculation in the RFEM program. This first article describes the basic determination of the stiffnesses as well as the calculation.
Exporting Spring Stiffnesses from RF-/FOUNDATION Pro and the Influence on Column Design

New

001572

Technical Article Concrete Structures Process Plant Construction Bridges Structural Analysis & Design RFEM RSTAB RF-CONCRETE CONCRETE RF-/FOUNDATION Pro EC2 for RFEM/RSTAB RF-CONCRETE NL Design Eurocode 2

With RF-FOUNDATION Pro, it is possible to determine settlements of single foundations and resulting spring stiffnesses of the nodal supports. These spring stiffnesses can be exported into the RFEM model and used for further analyses.
The Benefits of BIM in Structural Analysis

New

001561

Technical Article Building Information Modeling (BIM) RFEM RSTAB Import / Export & BIM

Building Information Modeling hits the headlines in building design. While some engineers only use BIM methods for planning, others deal with this topic for the first time or hardly have time for it in their daily working routine. However, one topic seems to be the most important in structural engineering: How can structural engineers benefit from BIM?
Internal Forces Diagram/Surface Stresses - Smoothing Options

New

001571

Technical Article Concrete Structures Steel Structures Mechanical Engineering Shipbuilding Silos and Storage Tanks Finite Element Analysis Stress Analysis Simulation of Masonry RFEM RF-CONCRETE RF-CONCRETE NL RF-MAT NL RF-/STEEL Results

The deformations of the FE nodes are always the first result of an FE calculation. Based on these deformations and the stiffness of the elements, it is possible to calculate strains, internal forces, and stresses.
Comparing Critical Load Factors for Lateral-Torsional Buckling According to Different Methods and Modules

New

001570

Technical Article Steel Structures Stability Analysis Warping Torsion Analysis RFEM RSTAB RF-/STEEL EC3 RF-/STEEL Warping Torsion RF-/FE-LTB Design Eurocode 3

The critical factor for lateral-torsional buckling or the critical buckling moment of a single-span beam will be compared according to different stability analysis methods.
Nonlinear Time History Analysis Using the Example of a Tower Structure with Prestressed Cables

New

001569

Technical Article Towers and Masts Dynamic and Seismic Analysis RFEM RF-/DYNAM Pro Design

There can be numerous nonlinearities in a structural system. In order to model them realistically in a dynamic analysis, the RF-DYNAM Pro - Nonlinear Time Histoey add-on module was developed. To explain how the add-on module works, the procedure is described below with an example.

Contact us

Contact to Dlubal

Do you have questions or need advice?
Contact our free e-mail, chat, or forum support or find various suggested solutions and useful tips on our FAQ page.