Training and eLearning courses
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CADFEM France SAS is recognized as a certified training organization in France by the Direction Régionale des Entreprises, de la Concurrence, de la Consommation, du Travail et de l'Emploi (DIRECCTE), under the number 84691692869. You can therefore ask your OPCO for financing your training. The quality certification was issued for the following categories of actions: ACTIONS DE FORMATION.
Optimization of Flow Geometry Using Fluent Adjoint Solver
In this course, you will learn how to effectively apply tools available in Ansys CFD for shape optimization of your flow geometry.
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Optimizing Additive Process Parameters for Metallic Materials
Determine optimal print parameters for the laser powder bed fusion process and influence printed component properties
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Particle Simulation Using the Discrete Element Method in Rocky
Learn the application of particle simulation for various problems from the fields of process, production and plant engineering.
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eLearning
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Positioning accuracy in machine development
In this training, you will learn how to increase the accuracy of machines by simulating static, dynamic, and thermal environmental influences as early as the development stage.
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Practical Simulation of Elastomer Components
In this training, you will learn how to select and fit appropriate material models as well as to model reinforcements and confined fluids.
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Practice-Oriented Meshing in Ansys Fluent
Learn how to prepare geometry data and use Fluent Meshing to generate a completed mesh in just a few steps - even for complex assemblies.
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eLearning
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Practice-Oriented Meshing in Ansys LS-DYNA
In this training, you will learn how to mesh complex, real-world geometries with a few manual steps (semi-automatic). The focus is based on meshes that meet the requirements for explicit simulations.
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Practice-Oriented Meshing in Ansys Mechanical
In this course, you will learn how to create FEM meshes in Ansys Mechanical that are adapted to both your simulation objective and the required result accuracy.
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eLearning
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PSD Analysis: Computation of Randomly Induced Vibrations
Learn the analysis of random vibrations and their practical application – from theory to the fatigue of components via a virtual shaker test.
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Python Primer for Ansys
In this training, you will learn the basics of Python programming for using PyAnsys and automating your Ansys simulations.
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eLearning
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Quick Insights on Fatigue Life Assessment with FEM
From set square and calculation assessment to Excel for fatigue and life cycle calculation using FEM: this training provides a clear and understandable introduction into fatigue life assessment.
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Reduced Order Models for System Simulation with Ansys
Learn how to combine the accuracy of field simulation with the speed of system simulation for highly complex systems.