- More than 100,000 users in 95 countries
- One software package for all application areas
- Free support by experienced engineers
- Short learning time and intuitive / self-explanatory software
- Excellent price-performance ratio
- Flexible modular concept that can be extended as required
- Scalable license system with single-user and network licenses
- Respected and proven software in many well-known projects
Participation in Research Projects
Why Dlubal Software?
Customer Projects
Fascinating customer projects designed with the Dlubal structural analysis software.
Development of Software Product for Fracture Mechanical Analysis of Structures and Components Using Extended Finite Element Method
Supported by: Federal Ministry for Economic Affairs and Climate Action
Cooperation partner: TU Dresden - Institute for Structural Analysis and Dynamics
Project status: Completed
The knowledge gained from the research work has been incorporated into the following module:
- RFEM add-on module RF-XMAT (realistic fracture mechanical simulation) will be developed and implemented.
CARBON CONCRETE COMPOSITE - C³
Subproject C3-V4.11-IV
Topic: TISC3 and numerical simulation
Supported by: Federal Ministry of Education and Research
Cooperation partner: TU Dresden - Institute for Structural Analysis and Dynamics
Project status: Completed
The knowledge gained from the research work has been incorporated into the following programs/modules:
Research Project of University of Wuppertal
Standardized Example Database for Software-Aided Structural Analysis
Supported by: Federal Ministry of Environment, Nature Conservation, Building, and Nuclear Safety
Project status: Completed
Conception and construction of a standardized example database for software-aided structural analysis for the utilization of structural analysis software in BIM-based process chains
Implementation of Method for Fracture Mechanical Modeling of Timber Structures in Commercial Software - X-Wood
Supported by: Federal Ministry for Economic Affairs and Climate Action
Cooperation partner: TU Dresden - Institute for Structural Analysis and Dynamics
Project status: Completed
The knowledge gained from the research work has been incorporated into the following features:
- Tsai-Wu material model (extension of the hardening modulus)
- Nodal, line, and surface releases
- Load increment until structural failure with variable load increments
CARBON CONCRETE COMPOSITE - C³
Subproject C3-B3-IV
Topic: Numerical analysis of the load-bearing and fatigue behavior as well as the structural safety of carbon concrete structures
Supported by: Federal Ministry of Education and Research
Cooperation partner: TU Dresden - Institute for Structural Analysis and Dynamics
Project status: Completed
The knowledge gained from the research work has been incorporated into the following programs/modules:
Contact
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