Engineering strength calculation of products and structures, including thermal and vibrational effects. Calculation of products manufactured using additive technologies. Calculation of properties of composite materials. Solution of geomechanical problems, including tomographic image transformation.
General product description
The CAE Fidesys package is designed for engineering strength analysis and geomechanical problem-solving. The package allows for the evaluation of reliability and resource of mechanical structures, as well as predictive analysis of the efficiency and safety of mining operations.
The CAE Fidesys package is used in mechanical engineering (aerospace, space industry, shipbuilding, engine manufacturing, automobile manufacturing, etc.), oil and gas industry, mining industry, medicine, and other sectors.
The ability to perform calculations on CAD models with defects (gaps and overlaps).
Reduced preparation time and increased accuracy of calculations when using the spectral element method.
Deep integration with the Python programming language, allowing the development of custom solutions based on the basic capabilities of the CAE Fidesys package.
Availability of converters from CAD and CAE packages for seamless transfer of both geometric and mesh models.
Strength analysis of rotating structures, including turbine blades.
Pressure vessel strength analysis.
Strength analysis of assembled structures with defects in the CAD model (gaps, overlaps).
Strength analysis considering changes in material properties during thermal and mechanical processing.
Analysis of large (finite) deformations.
Strength and deformation analysis of metal structures under their own weight.
Strength analysis under external forces acting on the structure (e.g., ice load).
Strength analysis of assembled structures with sliding contact (e.g., bearings).
Strength analysis of composite materials and products made from them. Preliminary assessment of characteristics of new composite materials. Modeling the behavior of a composite after the onset of failure.
Resonance frequency analysis of structures.
Deformation analysis under heating with heat conduction (including additive manufacturing).
Oil and Gas and Mining Industries
Stability analysis of quarry walls during open-pit mining operations.
Analysis of oil and gas properties of the rock.
Evaluation of drilling and enhanced oil recovery stimulation zones in terms of cost minimization and risk reduction.
Forecasting changes in reservoir productivity due to deformation accumulation.
Stability analysis of wellbore considering stress redistribution in the formation during drilling.
Predictive analysis of the likelihood of accidents during mining operations.
Optimization of drilling routes based on a digital model of the rock mass.