This system will use advanced it-cad/cam tools for integrated architecture, prefabrication, delivery, mounting and maintenance for multistorey buildings. The goal is to define an ultimate industrialised building process.
The objective is to develop a combined natural stone/ concrete unit, suitable for both the repair of crumbling marble facades and new structures. The unit will provide new potential for marble to be used as a facing material.
The r&d project proposes the development, production and marketing of a competitive system of two linked groups of new, high performance flooring materials for the repair of damage to industrial floors of every thickness.
The development of a mobile self-erecting tower crane, which excels with high load capabilities and a high performance all-terrain base. The crane will be equipped with advanced control systems for automation and an anti-sway control system.
Development of an excavation system (tunnel boring machines and lining) to construct tunnels through rock deformations that are unavoidable within the alpine region. By reducing production costs, european traffic routes will be considerably extended.
Establish a mechanism for applied electrical dc-potential to improve flow and antifoulant. Development of a technology for flow improvement and reduction of fouling in industrial pipelines, heat exchangers and other.
Development and certification of a fireproof insulated door and panel system.
Development of a reliable automatic early warning and localisation system for both gradual and catastrophic dam and dike failure during flood events, based on the combination of geosynthetic functions and integrated fibre optic and/or electrical sensors.
The datif study will develop a very durable concrete pavement without gaps. The structure will be used in airport roadways.
To develop a new profiled steel sheeting for composite steel and concrete floors.