The diagnosis and early detection of structural damage is essential to improve the structural integrity and provide suitable maintenance actions able to prevent possible future catastrophes. This is a structural monitoring system based on the impedance method using wireless sensor networks.
Patented portable machine for carrying out soft impact tests on fragile materials with a variable mass and stiffness impact element
New tool that allows knowing the influence of the land in the construction of new urban expansions, through the analysis of natural and anthropic risks
An easy-to-use software tool for estimating the bearing capacity of surface foundations on rock masses.
Enabling the nanomaterial-solutions journey from the lab to the industry by means of an automated process
High efficient multilayer lightweight enclosure system that can be implemented in any type of building, and completely modulated in the benefits provided
Precast concrete wedge-shaped block for use in ponds or embankment dams, as a protection against erosion caused by water circulation with high flow rates and high speeds
Yesograf improves the mechanical resistence up to 250% of inorganic materials widely used in construction such as gypsum
Advance consulting to analyze and rehabilitate obsolete housing and to return them in use as fast as possible with full guarantees after boomurbs in 2007 in Spain
BRISVI is a new stool easy to assemble, store, highly resistant and cheap. It is achieved greater resistance by using lesser quantity of material with regard to the other models that are already available on the market, with the consequent financial savings.
XPS-AL is an appropriate solution for insulating the inverted flat roofs, avoiding interactions, reducing costs, and enlarging the life cycle
MALECON© is an innovative material that increases structural efficiency and safety for maritime, offshore and civil engineering industries. It is a fibre/metal hybrid laminated material tailored to meet the specific needs of every application. An effective alternative to traditional structural materials
SFS is a versatile and inexpensive production method for fibroin-based biomaterials to produce fibers that combine biocompatibility and high performance.