Prevent catastrophic failure through accurate stability assessment.
Stability loss can lead to sudden, complete structural failure. Our analyses predict buckling and post-buckling behavior, ensuring adequate safety margins against instability. We evaluate both local and global stability for complex loading conditions.
Critical for slender structures like aerial platforms and large plate fields in vessels, stability analysis determines required reinforcements and optimal geometry. Our expertise spans beam buckling, plate buckling, and shell instability across industries and applications such as process, marine and composites.
CFD, or Computational Fluid Dynamics, is a method that is often utilized only for the post-design phase, although it is very well suited for wider and efficient use throughout the design process. Optimal use of CFD analysis generally shortens projects’ lead times and improves product assessment. It also provides an excellent basis for preparing digital twins. In process modeling tasks, CFD is an excellent tool for studying the components, for example.
Not only colorful pictures – CFD saves time and money
Did you know that by using computational fluid dynamics (CFD) you can save as much as 80 % in design time and 60 % in design costs? During the past 20 years, I’ve been lucky enough to participate in many interesting simulation projects both in Finland and abroad and have seen how clients have received instant help. But what is CFD really? Where can it be applied and why should it be utilized?
We have offices and representatives in Europe, Asia and the Americas. Our main offices are located in Finland and The Netherlands. Contact details of all our offices and representatives can be foundhere.
