- Date
- 22. svibnja 2026.
A physics‑based simulation framework was developed to optimize aluminum alloy wheel design and support manufacturing validation, applying structural and fatigue analyses in accordance with international standards. The workflows cover radial rolling, cornering fatigue, and impact scenarios, following protocols such as ISO 3006:2015, ISO 7141, and SAE wheel standards. Accurate material characterization informed both linear and non-linear finite element analyses, ensuring simulation results closely matched physical testing. This approach enables reliable virtual validation, reduces the need for extensive prototyping, and accelerates the overall wheel design cycle.- Date
- 21. svibnja 2026.
The hydroforming process of a copper pipe was analyzed to improve forming reliability and reduce material waste. A 3D FEA model simulated deformation under varying pressure levels, enabling optimization of internal pressure and prediction of critical wall thickness reduction. The results demonstrated that simulation-driven tuning can significantly improve process stability and production efficiency.- Date
- 20. svibnja 2026.
A transient electro-thermal simulation of a Power Distribution Unit (PDU) was performed to evaluate temperature evolution during alternating current charging and discharging cycles. The analysis was carried out using the Thermal-Electric Coupled Field Transient capabilities in Ansys Mechanical. The simulation includes time-dependent electric current flow, Joule heating, and heat transfer, with switching between charging and discharging paths represented through changes in boundary conditions. Both operating modes are captured within a single transient analysis by sequentially modifying electrical loads, current paths, and material properties.- Date
- 23. kolovoza 2024.
Simtec conducted a heat dissipation study for BIOSAR SA's underground cables at a Photovoltaic Power Station in Oakey, Australia. Using coupled finite element analysis with Ansys Mechanical, the study evaluated the thermal loads from ohmic losses and solar radiation on cables in sand-filled trenches. The simulation ensured that the design would protect the cables from melting, even under worst-case conditions.- Date
- 1. siječnja 2024.
Simtec conducted a structural analysis of an industrial aluminum roller designed by TEKA Systems S.A. for EL.V.AL. S.A. Using ANSYS Mechanical, the study evaluated the roller's performance under standard and overload forces. The CAD model was simplified and analyzed, revealing that the roller operates within the elastic region, with only minor, non-critical plastic deformations. This ensured the safe and reliable operation of the roller.- Date
- 1. siječnja 2024.
Simtec conducted electromagnetic simulations to evaluate magnetic coupling and current imbalance in cables connecting inverters to transformers at a Photovoltaic Power Station in Brazil. The study explored different cable arrangements in buried pipes, revealing that configurations with different-phase cables in each pipe reduced current unbalancing. Thermal analysis under worst-case conditions showed that the cables' temperature remained well below the melting point, confirming no risk of overheating.







