Engineering analyses: FEM/FEA

We offer specialized engineering analyses using the Finite Element Method (FEM/FEA), which constitute a key stage in the design and verification process of mechanical structures. Numerical analyses enable a precise assessment of the behavior of components and machine assemblies under real loading conditions, even before a prototype is built or production begins.

As part of our FEM analyses, we perform strength calculations as well as stress and displacement assessments for a wide range of steel structures (mechanical structures), components, and complete machine assemblies. Simulations make it possible to identify critical areas, stress concentrations, and potential failure locations, allowing necessary design modifications to be introduced at an early stage of the project. We carry out the following types of FEM analyses:

a) static analyses,

b) dynamic analyses:

– modal analysis (vibration analysis),

– analysis under time-varying loads (direct transient response),

– frequency analysis (direct frequency response),

c) buckling analyses,

d) fatigue analyses:

– fatigue life assessment,

– Hot-spot method.

The analyses are performed based on load models, boundary conditions, and material properties, in accordance with applicable standards and good engineering practices. The calculation results are used not only to confirm the safety and durability of the structure, but also to optimize weight, geometry, and manufacturing costs, without compromising functionality and reliability.

The FEM/FEA analysis reports we prepare provide clear and unambiguous information that supports design decisions, certification processes, and communication with production departments and investors. By combining engineering experience with advanced simulation tools, we help create solutions that meet the highest technical and operational requirements.