Strength Analysis and Consultancy

Solve Engineering Problems with Effective Methods!

Strength Analysis and Consultancy

As Mechanima, we offer a wide range of solutions in the field of strength analysis and design using both high-tech software that we have developed ourselves and can adapt as needed, and other commercial software. Our comprehensive analysis solutions include examining the strength of various structures, from large-scale projects such as ships to small-scale components such as brackets, under different load and boundary conditions and providing the necessary design recommendations according to need.

Our in-house software covers Finite Element (FEM), Boundary Element (BEM), Isogeometric Analysis (IGA) and Peridynamic (PD) Methods. For this reason, we can perform many special structural analyzes with high accuracy, exceeding the capabilities of other known commercial software. For example, crack formation, opening and propagation in the structure cannot be modeled realistically with classical continuum mechanics-based software. With our peridynamic analysis codes, we can model such structures accurately, detect cracks and recommend better structural designs to meet the necessary conditions.

We also offer special consultancy and training solutions to your engineer teams on our structural analysis methods that we have developed and validated for customer needs and well-known commercial software such as ANSYS. It is not a problem for us if your needs exceed the capabilities of structural analysis software. Within the scope of our consultancy, we provide you with in-house gains by writing computational mechanical codes specifically designed for your problem. In this context, you can contact us to get consultancy for the following analysis types and more.

  1. 1) Structural strength analyses
  2. 2) Fluid-structure interaction simulations
  3. 3) Vibration and modal analyses
  4. 4) Dynamic (impact, shock, explicit/implicit) analyses
  5. 5) Thermomechanical and electromechanical analyses
  6. 6) Multi-scale damage analyses