MATERIALS MODELLING


Computational Materials Science is a powerful predictive tool that enables the understanding of the properties and behavior of materials. It is based on the integration of experiments, constitutive equations, and numerical simulations. The AMS team boasts extensive experience in a wide range of simulations, including Mechanical, Fracture, Fatigue, Damage, Thermal, Hygrothermal, Chemical, and Piezoelectric analyses, spanning various scales from atomistic to structural components.

Materials modelling


MULTISCALE


ADVANCED MATERIAL SIMULATION (AMS) has developed original methods and solutions focused on numerical modeling, characterization of materials, and optimization techniques based on our own algorithms and experience.
Some examples of multiscale calculation appear below.

Materials modelling

Materials modelling

Materials modelling

MULTIPHYSICS


Our experience in multiphysics modelling includes the following phenomena
  • Mechanics
  • Fracture and damage
  • Fatigue
  • Impact
  • Wear
  • Residual stresses
  • Acoustic
  • Thermodynamic models
  • Hygrothermal models
  • Chemistry
  • Difussion
  • Piezoelectricity
  • Wind driven rain

MULTIPHYSICS

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