- 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
Participation in Research Projects
Why Dlubal Software?
Dlubal Software takes part in different research projects. Given below is the list of some projects.
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Development of a Software Product for Fracture Mechanical Analysis of Structures and Structural Components Using Extended Finite Element Method
Funding: German Federal Ministry for Economic Affairs and Energy
Cooperation: TU Dresden - Institut für Statik und Dynamik der Tragwerke
Project Status: Completed
The research findings will be used for the following module:
- Development and implementation of the add‑on module RF‑XMAT (realistic fracture mechanical simulation) for RFEM
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CARBON CONCRETE COMPOSITE – C³
Subproject C3-V4.11-IV
Subject: TISC3 and Numerical Simulation
Funding: German Federal Ministry of Education and Research
Cooperation: TU Dresden - Institut für Statik und Dynamik der Tragwerke
Project Period: Completed
The research findings have been/are used for the following programs:
- Structural FEA Software RFEM
- Development of a module for structural analysis based on cross‑sections
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Research Project of the Bergische Universität Wuppertal
Standardized Sample Database for Software-Aided Structural Analysis and Design
Funding: Federal Ministry for the Environment, Nature Conservation and Nuclear Safety
Project Status: Completed
Creating and developing a standardized sample database for software-aided structural analysis and design for use of structural engineering software in BIM-based process chains.
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Implementation of a Method for Fracture Mechanical Modelling of Timber Structures in a Commercial Software - X-Wood
Funding: German Federal Ministry for Economic Affairs and Energy
Cooperation: TU Dresden - Institut für Statik und Dynamik der Tragwerke
Project Period: Completed
The research findings are used for the following features:
- Material model Tsai-Wu (extension with strain hardening modulus)
- Nodal, line and surface release
- Increasing load with variable load increments until the failure occurs
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CARBON CONCRETE COMPOSITE – C³
Subproject C3-B3-IV
Subject: Numerical Investigation of Structural and Fatigue Behavior as well as Safety of Carbon Concrete Structures
Funding: German Federal Ministry of Education and Research
Cooperation: TU Dresden - Institut für Statik und Dynamik der Tragwerke
Project Status: Completed
The research findings have been used for the following programs:
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