Introducing the biocide with the participation of the plasma and vacuum technique on surfaces of polymers (both synthetic and natural) and thus obtain materials with biocidal properties. Surface modification is to be made in such a way as to ensure lasting attachment biocide materials.
The development of an analytical tool and algorithmes based on the propagation and reflection of acoustic waves to characterize the structure of porous matrices and apply this technique to determine rapid and non-invasive certain changes.
Development of Series Production Technology of Faceted Cutting Inserts based on Ceramic Nano-Composites using FAST/SPS method
Development of new technology and measuring instrument for express control of quality of natural gas
Will support further development of abatement strategies within europe by providing an improved scientific basis for the quantification of source-receptor relationships for photo-oxidants and acidifying substances.
The aim of the project is to develop multi-operational rotor die-forming technology and suitable equipment, combining compacting, sintering, coining, retreating and control for production of precision parts from powder materials.
Development of technology for the manufacturing and processing of wires and rods designed for the manufacturing of high-strength pressings in strength class 800-1200 mpa (mega pascals) without final heat treatment.
The aim of the project is to develop effective methods to improve forging tool life and regenerate such tools. to achieve this, laser treatment and surfacing methods are proposed.
Design and development of new generation, internet-based, engineering collaborative software for the construction industry, sharing a common, object-oriented database, to be operated from any web navigator.
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.