Steel Structures

About Us
More than 10 years of experience in engineering, applying synergy of several technical areas together with new technologies to guarantee the success of our customers.

Steel Structures

We carry out projects of metallic structures, steel and aluminum, in the environment of construction and industrial facilities.
Our experience in the use of various construction standards such as the Technical Building Code (Spain), Eurocodes (Europe) and different American codes such as ASCE-SEI together with the application of calculation software and new 3D technologies for this purpose, allow us approach each project depending on the requirements.
Steel Structures 2
Steel Bridge

Steel Structures Benefits

High seismicity zones
Steel structures allow to develop resistance, stiffness, great ductility and energy absorption capacities to reduce the earthquakes response.
Great speed of construction
Assembly much faster than reinforced concrete. Foundations can be built on site while steel structures are being produced in a specialized workshop in parallel.
Difficult terrains
The less dead loads, the less load transmission to soil, so foundation can be smaller and more economical.
Open spaces and long cantilevers
Efficient to bridge gaps with less material with a wide variety of structures. Domes, three-dimensional structures, hanging or suspended constructions with tensioners and braces are some examples.
Exceptional shapes
Ease to build unconventional modern structures with exceptional appearance.
High quality
Prefabricated and high accuracy components with excellent quality which prevent labor inherent errors.
Existing and old building expansions
Steel structures permit to expand, renovate and refurbish old buildings and integrate them into a modern environment, since they easily adapt to them, while respecting their original architecture at the same time.

Our Added Value

Our high added value offers the best solution for our customers, combining different tehnical areas, computer applications and technologies to optimize their final products.
Computer Aided Engineering simulations determine structural performances of elements in joints and complex geometries
Computational Fluid Dynamics simulations allow us to stablish the interaction between wind and our structure, identifying the wind exposure coefficients more accurately, optimizing the ones which standards indicate and minimizing structure costs
3D Printing provides a way to visualize smaller-scale structures at a low cost by means of mock-ups, consequently, a better idea of structure dimensions is materialized in order to make decisions in complex geometries.