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Product Outline

 

Multiscale.Sim is a customized product that based on the multi-physics analysis tool "Ansys," and provides the equivalent property values as the homogenization method that is based on the numerical material test. Also, it provides the multi-scale analysis feature that is required for micro/macro structure linking analysis such as the macro model analysis to the localized analysis.

Material property values are calculated by numerical material test of micro structure without material tests that were required conventionally, by utilizing Multiscale.Sim. The results enable prediction of the macroscopic behavior by the macro structural analysis. Further, it is possible to predict the microscopic behavior by going back to the micro structure analysis again.

Multiscale Analysis flow

  1. Create a Micro Model
    Create a micro model using 3D CAD or Ansys DesignModeler for numerical material test.
     
  2. Homogenization Analysis
    After mesh generation and entering the boundary conditions in Ansys, perform numerical material test and then calculate the equivalent property value such as elasticity modulus.
  3. Macro Structure Analysis (*figure shows a printed circuit board model)
    Apply the equivalent property value output from the homogenization analysis results as a material property of the macro model, then perform verification and analysis of macro model repeatedly.

     
  4. Localization Analysis
    Verify the behavior of the local area by selecting the element selected to be localized from the macro analysis results and perform a localization analysis using the strain of that localized area as condition.

Analysis Features

Linear Version

The Linear version can perform the following analysis based on the homogenization method.

  • Elastic Analysis: Elastic modulus, Poisson's ratio, Shear elastic modulus, Linear expansion coefficient, Density
  • Heat Transfer Analysis: Thermal conductivity, Specific heat
  • Penetration Analysis: Permeability for Darcy's law
  • Electric Current Analysis: Electrical resistivity
  • Electric Field Analysis: Specific permittivity
  • Magnetic Field Analysis: Specific magnetic permeability

Non-Linear Version

The non-linear version can perform the following analysis in addition to the above.

  • Homogenization Analysis (numerical material test): Elasto-plasticity, Creep, Hyper-elastic, viscoelastic, Piezo-electric, Damage
  • Homogenization Analysis (physical properties identified): Elasto-plasticity, Creep, Hyper-elastic, viscoelastic
  • Localization: geometric non-linear, non-linear material (Elasto-plasticity, Creep, Hyper-elastic, viscoelastic)

Development and Sales Framework

CAE tool "Multiscale.Sim" uses the homogenization method which is one method of multi-scale modeling, and is jointly developed by three companies, Cybernet Systems Co.,Ltd., Nitto Boseki Co.,Ltd., and Quint Corporation by receiving cooperation from Professor Kenjiro Terada of Tohoku University. The official release date was June 25, 2007.

License / operating environment

  • Windows 10, Windows 11
  • Red Hat Linux 7.3*, SUSE Linux 12* (License Manager only). If you are using a different Linux version, please contact technical support.
  • Ansys Workbench environment, Ansys Mechanical APDL (Previous Classic) environment
  • The following licenses of Ansys are Supported(※)

※If you are using an Ansys Academic license, the analysis scale will depend on the mesh scale that is available on your product.

The type of Ansys license required for each analysis feature

 

 

Mechanical Pro

Mechanical
Premium

Mechanical
Enterprise

Elastic Coefficient

Thermal Conductivity

Coefficient of Linear Expansion

Permeability Coefficient

*1

*1

*1

Density

Specific Heat

Permittivity

×

×

Magnetic Permeability

×

×

Electrical Resistivity

×

×

Numerical Material Test

Elasto-plasticity

×

Hyper-Elastic

×

Viscoelastic

×

×

Creep

×

×

  Piezo-Electric × ×
  Damage × ×

Localized

Linear

Geometric Non-linear

×

×

Non-linear Material

×

×

Homogenization

Elasto-plasticity

×

×

Hyper-elastic

×

×

Viscoelastic

×

×

Creep

×

×

Notes:
Features in red X are supported in the Ansys Mechanical APDL environment (Previously Classic) as well as in the Workbench environment.
(*1) Localization Analysis is not supported

Contact us for more information and support.

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