Building Insulation against Outdoor Vibration – Design of a new product
Sioo:x Sustainable Industrial Wood Protection
Explosive concrete spalling at high temperatures results in serious economic and human safety problems. A research programme will study innovative concretes using new fibre types able to exclude toxic effects and avoid spalling.
Aims to develop a class of new mortars based on mortar 'portland + inert' and combined to different kinds of resins polymerising 'in situ' with improvement of some mechanical characteristics of concretes.
Development of a new resin for the construction and furniture industry with environmental advantages and a shorter pressing time, resulting in energy and cost savings.
To develop an innovative material for construction combining hemp fibres with lime.
Dev.Of concrete with photo catalytic properties.Cement&titanium dioxide are to be dev.To get efficient combinations for use in photo catalytic concrete.The reactions are to investigated as are the concrete properties and long-term effects.
To develop a new binder system of self-hardening mixtures for the manufacture of foundry moulds and cores. The system will be based on the application of a new inorganic geopolymer-based binder
The main objective of the project is the study of a new asphalt agglomerate with self-healing properties to enhance its durability and reducing the maintenance works needed on the roads produced by the traffic and the climate conditions.
The project is aimed at making the use of calcined clay as a supplementary cementing material (scm) in concrete more widespread. This is in the context of a potential shortage of existing scms, which makes the research of alternative materials a priority, knowing the use of scms reduces ghg emissons