Fluid Mechanics | Thermal | Acoustics
Description
Discover our advanced range of simulation software designed for professionals and researchers in the fields of fluid mechanics, thermal analysis, and acoustics. Our solutions offer powerful tools to model and analyze complex fluid behaviors, optimize thermal systems, and evaluate acoustic impact in various environments. With an intuitive interface and cutting-edge features, our software facilitates detailed visualization of physical phenomena, enabling informed decision-making and accelerated innovation. Whether you are working on engineering, research, or development projects, our platform guarantees precision, efficiency, and reliability to meet the highest demands of your sector.
CRADLE CFD
Thermal and Fluid Simulation
Cradle CFD is a suite of cutting-edge CFD simulation and visualization software designed to be practical and efficient. Combining exceptional processing speed, advanced technology, and proven ergonomics, these tools are widely used in various sectors such as automotive, aerospace, electronics, construction and architecture, civil engineering, as well as in the manufacturing of fans, machinery, and maritime developments to solve thermal and fluid problems.
Features
- Reduced analysis time thanks to parallel computing
- Ability to analyze up to 2 billion mesh elements for complex devices and large-scale calculations
- Coordination with 27 structural, acoustic, and other software solutions to enable multiphysics co-simulation
Application Examples
Multiphysics co-simulation and chained simulations with software:
- Structural analysis
- Mechanics
- Acoustics
- One-dimensional
Post-processing to generate simulation graphics
Actran
Acoustic Simulation
Actran is used to simulate a wide variety of acoustic problems. It is particularly favored by the transport sectors (such as aerospace and automotive), machinery manufacturers, as well as producers of consumer goods, such as power tools and cameras.
Features
- Simulate standard acoustics
- Extract acoustic modes
- Study the sound field in cavities using modal or physical approaches
- Model absorbent walls by taking into account the impedance conditions of porous materials
- Analyze acoustic radiation
- Study sound propagation in ducts, intake and exhaust systems, as well as in distribution networks within buildings, aircraft, and automobiles
- Extract vibration results from FEA structural solvers for radiation analysis
Application Examples
- Powertrain, engine components, compressors, electric motors, speakers
- Intake and exhaust noise
- Air conditioners and distribution systems
- Sound absorption inside cars, trains, and aircraft
- Sound propagation in complex media
- Audio devices such as telephones, hearing aids, or musical instruments