This innovative r&d project will be executed by two parties in order to share the technological and financial risks involved in developing a ground-breaking helmet platform with increased protection against rotational force to the brain.
To develop novel textile fabrics and prototypes for protection, safety and well-being. Theoretical works dealing with adoption of techniques and solutions of already existing materials and fibres are envisaged, extended by a wide-range of experimental and validation activities.
The main goal of this project is to use locally available industrial by-products like fly ash and slag in order to replace partially portland cement and therefore reduce the carbon footprint of industrial mortars.
C-sims brings event, threat, and risk data together to provide strong security intelligence, rapid incident response, seamless log management, and compliance reporting—delivering the context required for adaptive security risk management.
There are no technologies able to measure the scuffing phenomena and to regenerate the returnable glass bottles, neither from a domestic or a global perspective. The result of the project is going to be absolutely new and is going to allow maximizing the "life cycle" of the returnable glass bottles.
Rf-, microwave- and ir-shielding window film, transparent and spectrally selective. Allows visible light into the room while blocking other wavelengths of the electromagnetic spectrum. Used for solar heat protection and conversion of buildings to scif standard due to high rf-attenuation (anti-spy).
Development of new high resistance non-woven mats combining rcf and nf to be used in a more efficient compression moulding process. In addition, it is proposed a new concept of equipment to simulate the effect of environmental and storage conditions on voc and odour behaviour of the new materials.
The objective of the project is the r&d of a new ecological wankel engine to comply with new emission limits for motor vessels, especially for the motorized surf board jetsurf.
During nanomod project the partners will develop and test new and improved wires for ductile iron inoculation, the wires will be developed by cedie
The spanish company idec (with its rtd subcontractor tecnalia) and the austrian company fill, will develop a fully automated rtm process fr automotive and aeronautic applications. The goal is to generate a solution being a demonstrator equipment prototype ready for operation.