- 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.
1
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.
2
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:
3
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
4
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
5
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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