The objective of this strategic project is to apply new biotechnological tools and agronomic technologies to improve the european forestry sector.
Addresses the problem of flight test exploitation for structural dynamics. It aims to improve the quality of information gathered from flight test data as well as allowing faster exploitation of the flight domain.
The aim of the project is to develop and implement new technology for water chemical treatment in energy systems in the power industry.
Friction stir welding (fsw) will be applied to a range of materials/be researched to achieve high welding speeds in increased joint thickness. Processes will be industrialised for real components and applied in commercial production.
Creation of a platform to stimulate r&d/technology transfer dealing with laser/optics technologies/their applications, e.G. In processing industries, in order to initiate projects emphasizing cooperation between industry/r & d instititions.
New bioactive nanostructured composite implant materials will be developed for human bone substitutes. Development is based on the plasma processing of ceramic nanopowders and chemical technology for the production of nanosized hydroxyapatite powders.
Development of a global solution for manufacturing and traceability management by industrial enterprises (particularly agrifood companies).
The project focuses on the design and development of novel catalytic composite materials for the abatement of nox produced during the combustion of fossil fuels (natural gas, coal) in stationary devices, and of n2o in nitric acid plant at either high or low temperatures.
The goal of the multi-patch project is to design a generic patch technology for the diagnosis of a wide range of allergies, from food through to respiratory and contact allergies.
Provide an efficient solution for control system definition and implementation using fpga (field programmable gate array) technology, dedicated to industrial hardware and control system manufacturers.