With online group training, you can enhance your professional knowledge, and you will ensure that your investment in the software pays off to the maximum.
Online Basic Training on Structural FEA Software RFEM
This training will show you how to work efficiently with the structural FEA software RFEM. Using practical examples, you will learn important functions and modeling options. Open questions can be discussed.
Time Schedule
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Example: Flat hall frame
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Introduction
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Introduction
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Introduction
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Information about the scope of the Dlubal programs
Please Note
A reliable internet connection is required to participate the online training.
During the training, each participant can ask questions via chat at any time.
After the event, each participant will receive the models, video recordings, and materials presented in the training for download. This allows the participant to go through and understand the training step by step by means of the models.
To take part in the online training, the participant will receive the login information in due time.
After completing the training, each participant will receive a certificate.
Please register with your personal company email address. The certificate is issued and the registration links are sent to the name assigned to the specified e-mail address.
Dipl.-Ing. Praxitelis Dimitriadis
Marketing Manager
Mr. Dimitriadis is responsible for creating targeted social media content and video marketing. He is also responsible for the Online Learning Academy.
Dipl.-Ing. (BA) Markus Baumgärtel
Customer Support
Mr. Baumgärtel provides technical support for Dlubal Software customers.
The Nonlinear Material Behavior add-on allows you to consider material nonlinearities in RFEM for example, isotropic plastic, orthotropic plastic, isotropic damage).
The Construction Stages Analysis (CSA) add-on allows for considering the construction process of structures (member, surface, and solid structures) in RFEM.
The Time-Dependent Analysis (TDA) add-on allows you to consider the time-dependent material behavior of members. The long-term effects, such as creep, shrinkage, and aging, can influence the distribution of internal forces, depending on the structure.
The Form-Finding add-on finds the optimal shape of members subjected to axial forces and tension-loaded surface models. The shape is determined by the equilibrium between the member axial force or the membrane stress and the existing boundary conditions.
In RFEM, the Geotechnical Analysis add-on uses properties from soil samples to determine the soil body to be analyzed. The accurate determination of soil conditions significantly affects the quality of the structural analysis of buildings.
The Building Model add-on for RFEM allows you to define and manipulate a building using stories. The stories can be adjusted in many ways afterwards. The information about stories and the entire model (center of gravity) is displayed in tables and graphics.
The two-part Optimization & Costs / CO2 Emission Estimation add-on finds suitable parameters for parameterized models and blocks via the artificial intelligence (AI) technique of particle swarm optimization (PSO) for compliance with common optimization criteria. Furthermore, this add-on estimates the model costs or CO2 emissions by specifying unit costs or emissions per material definition for the structural model.
The Multilayer Surfaces add-on allows you to define multilayer surface structures. The calculation can be carried out with or without the shear coupling.
The Concrete Design add-on allows for various design checks according to international standards. You can design members, surfaces, and columns, as well as perform punching and deformation analyses.
The Timber Design add-on performs the ultimate, serviceability, and fire resistance limit state design checks of timber members according to various standards.
The Masonry Design add-on for RFEM allows you to design masonry using the finite element method. It was developed as part of the research project titled DDMaS – Digitizing the Design of Masonry Structures. The material model represents the nonlinear behavior of the brick-mortar combination in the form of macro-modeling.
The Steel Joints add-on for RFEM allows you to analyze steel connections using an FE model. The FE model is generated automatically in the background and can be controlled via the simple and familiar input of components.