Construction and Infrastructure

At FIDAMC, we are dedicated to the research and development of advanced composite materials that significantly improve the durability, strength and sustainability of building structures and infrastructure. Our materials are designed to withstand extreme conditions and extend the life of buildings, thereby reducing maintenance and repair costs.

Key Applications

Our composite materials find applications in a variety of areas within the construction and infrastructure sector:

• Commercial and Residential Buildings: Development of materials that improve energy efficiency and structural strength, providing durable and sustainable solutions for building construction.
• Bridges and Roads:: Materials that increase the durability and reduce the weight of bridges and roads, improving their resistance to inclement weather and heavy traffic.
• Transportation Infrastructure: Applications in the construction of transportation infrastructure such as tunnels, airports and train stations, improving their safety and longevity.

Sustainability and Circular Economy

At FIDAMC, we are committed to sustainability and the circular economy. We focus on the development of recyclable materials and the implementation of manufacturing processes that minimize environmental impact. This includes the use of sustainable raw materials and the incorporation of practices that promote recycling and reuse of materials in construction.

Projects and Collaborations

We collaborate with major construction and infrastructure companies, as well as universities and research centers, to carry out innovative projects. These collaborations allow us to be at the forefront of technology and develop solutions that respond to the needs of the sector.

Emerging Technologies

We explore and develop emerging technologies that can transform the construction and infrastructure sector. This includes the use of smart materials that can change their properties in response to external stimuli, as well as the development of advanced construction techniques such as 3D printing of structural components.