AxisCAE Composite
Evaluation of effective properties
of composites
AxisCAE Composite
Evaluation of effective properties
of composites
- Calculation of effective properties of composites
- Calculation of Porous Materials for Small and Final Deformations
- Determining the elastic properties of a monolayer
Determination of rock properties based on tomographic image of the core
Predictive modeling for products based on new materials
Predictive modeling of mechanical properties of new composite materials, including rubber cords, woven materials, porous and lattice structures
Calculation of the strength of structural elements made of composite materials, including determination of the critical value of the load-bearing capacity and modeling of the behavior of the composite material after the onset of destruction
Modeling the properties of metamaterials with a negative Poisson’s ratio or a negative coefficient of thermal expansion
Modeling the production of products using additive technologies, including topological optimization.
Support for parallelization across all cores and threads
- Most programs that support parallelization implement it using only physical cores and do not support hyperthreading (hypertrading technology).
- AxisCAE automatically engages not only
- all cores, but also all threads with an HPC license
Key Features of AxisCAE Composite
- Effective Composite Properties Calculation: Accurately determine the effective properties of composite materials, including homogenized stiffness and strength tensors, taking into account complex microstructures and material constituents.
- Porous Material Analysis: Analyze the behavior of porous materials under small and finite deformations, considering factors such as porosity, pore size distribution, and fluid-solid interaction.
- Monolayer Elastic Properties Determination: Calculate the elastic properties of monolayers, such as graphene and other 2D materials, with high precision, enabling the design of novel nanomaterials and devices.
- Multi-Scale Modeling: Bridge the gap between micro- and macro-scales with advanced multi-scale modeling capabilities, enabling accurate predictions of the overall behavior of composite structures.
- Failure Prediction: Identify potential failure modes and critical locations in composite structures with advanced failure criteria and damage models, ensuring safe and reliable design
AxisCAE Composite Benefits:
Optimized Composite Design
Utilize precise simulation outcomes to make well-informed choices, resulting in enhanced performance, decreased weight, and improved durability of composite designs.
Accelerated Innovation
Utilize precise simulation outcomes to make well-informed choices, resulting in enhanced performance, decreased weight, and improved durability of composite designs.
Improved Safety and Compliance
It is important to verify that your composite products adhere to all applicable safety standards and regulations through thorough simulations that consider intricate loading conditions and material characteristics.