Short-term dynamic calculation
In today’s engineering science, short-term dynamic calculations play a decisive role. These calculations are essential to understand and optimize fast and transient processes in various systems. They enable engineers, especially calculation and design managers, to precisely analyze and model rapidly changing phenomena. This enables them to make informed decisions about design and functionality, which are key to the efficiency and safety of technical systems.
Why short-term dynamic calculation?
The analysis of short-term dynamic processes is essential for the assessment and optimization of fast reacting systems and components. This type of calculation provides deep insights into the behavioral dynamics of systems under rapidly changing conditions. It makes it possible to analyze, modify and optimize the responsiveness and adaptability of systems in a short time. This represents a significant time and cost saving compared to traditional testing methods and drives innovation and design quality by enabling precise adaptations to rapidly changing requirements.
Increased precision in the analysis of transients
These calculations enable a detailed investigation of processes that change rapidly or only occur for a short period of time. This allows the behavior of systems under variable conditions to be understood and modeled more precisely.
Optimization and design improvement
By enabling rapid adjustments and optimizations, they help engineers and designers develop products and systems that respond better to dynamic conditions while remaining efficient and safe.
Increase efficiency
Save time and resources compared to traditional analysis methods. By simulating short-term dynamic events, experiments and tests can be reduced or even avoided, leading to faster development and implementation.
Risk minimization
They help to identify potential problems or malfunctions in systems before they occur in the real world. This is particularly important in industries where safety and reliability are crucial, such as aerospace and automotive.
Promoting innovation
Short-term dynamic calculations enable the exploration and realization of new concepts and designs that would be difficult to realize under traditional test conditions.
Improved adaptability
They make it possible to design systems for a wide range of operating conditions, which is particularly important in a rapidly changing environment.
Dr.-Ing. Frank Brehmer – Management
Our expertise in the field of short-term dynamic calculation
ITB Ingenieurgesellschaft für technische Berechnungen mbH
As an established company in the field of computer simulation, ITB Ingenieurgesellschaft für technische Berechnungen mbH offers a comprehensive range of services in the field of short-term dynamic calculations. From the analysis of flow around, through or rotating components to the calculation of loads and temperatures in fluid-structure interactions – we have the expertise and the tools to make your projects a success.
Short-term dynamic calculation – The areas of application
Automotive and aerospace industry
Short-term dynamic calculations are crucial for the simulation of crash tests and airbag deployment in the automotive industry to improve vehicle safety and efficiency.
Aerospace
In aerospace, short-term dynamic simulations enable the analysis and optimization of aircraft and spacecraft responses to extreme conditions.
Mechanical engineering
Short-term dynamic modeling plays an important role in the development of machines and mechanical systems that are subject to rapid load changes.
Electronics and microsystems technology
In electronics and microsystems technology, short-term dynamic calculations are used to simulate the behavior of electronic components under fast switching processes.
Civil engineering and architecture
Short-term dynamic analyses are essential in civil engineering and architecture in order to understand the reaction of buildings to short-term loads such as earthquakes or gusts of wind.
Medical technology
In medical technology, short-term dynamic simulations help in the development of medical devices that are exposed to rapid dynamic forces.
Power engineering
In energy technology, short-term dynamic analysis is essential for the investigation of rapidly changing processes in power plants and energy systems.
Environmental sciences and meteorology
Short-term dynamic modeling is crucial in environmental sciences and meteorology for the prediction and analysis of rapidly changing environmental conditions.
Sports Science
The application of short-term dynamic calculations in sports science enables the analysis of the dynamics of sports equipment and the improvement of the performance and safety of athletes.
Calculation of drop tests for nuclear containers
For analyzing the structural integrity and safety of casks containing radioactive material.
- Simulation of impact and shock loads at different drop heights and angles
- Evaluation of the structural integrity and tightness of the container under extreme conditions
- Analysis of the behavior of container components and materials under dynamic loads
- Investigation of the risks of a possible release of radioactive material
Specialized in assessing the safety and stability of containers used in nuclear applications in potential impact scenarios.
- Simulation of the behavior of nuclear containers under different impact situations and intensities
- Analysis of mechanical integrity and tightness under extreme impact conditions
- Assessment of the risk of material fatigue and cracking due to repeated or exceptional impact events
- Investigation of the effects of impact events on the internal structure and contents of the containers
Specifically for analyzing the effects of collisions and accidents on vehicles and rail vehicles.
- Simulation of frontal, side and rear-end collisions at different speeds and angles
- Evaluation of structural integrity and occupant safety in different impact scenarios
- Analysis of deformation patterns and energy absorption mechanisms of the vehicle structure
- Investigation of the effects of crash scenarios on vehicle dynamics and stability
Start your short-term dynamic calculation today
Do you have a project that could benefit from our expertise in short-term dynamic calculation? Do you want to make informed, data-driven decisions and optimize your design and functionality? Don’t hesitate any longer and step into the future of flow analysis today!
ITB Ingenieurgesellschaft für technische Berechnungen mbH is ready to accompany you on this journey. Our dedicated team of experts uses state-of-the-art technologies to make your projects a success.
Contact us now to arrange a no-obligation consultation. Together we can find out how best to tackle your challenges and take full advantage of short-term dynamic calculations. Take the first step towards optimization and innovation – we look forward to working with you!
FEM: Frequently asked questions about short-term dynamic calculations
Short-term dynamic calculations are analysis methods that are used to simulate and understand the behavior and reaction of systems or components under rapidly changing or short-term conditions. They are particularly relevant for processes in which the dynamics play a decisive role within very short periods of time.
They are important because they make it possible to analyze the behavior of systems under conditions that are difficult to reproduce in real experiments. They help to minimize risks, improve safety, increase efficiency and drive innovation in product development.
They are used in various fields such as the automotive industry (e.g. crash tests), aerospace (e.g. reactions to turbulence), civil engineering (e.g. earthquake analysis), electronics (e.g. fast switching processes), energy technology, medical technology, environmental science and sports science.
They are used when it is necessary to analyze the reactions of systems to rapid changes or short-term events. This can be done in the development phase of a product, for safety assessment or for performance optimization.
They are carried out using specialized computer programs and simulation software. These tools model the physical and mechanical properties of systems and simulate their reactions under different, rapidly changing conditions.
Engineers, scientists, product developers and safety experts in various fields of industry and research benefit from these calculations as they provide sound insights into the behavior of systems under dynamic conditions.
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