Development of new materials for hardfacing against abrasion and hydro-abrasion with longer life and better environmental conditions than those of currently used materials.
Research and development into process arrangements to reduce the environmental impact of chemicals production.
Development of a forging and rolling technology for nickel-based alloys. Small and large crankshaft forging technologies will be optimized using numerical simulation support.
Ledeburitic steels prepared using the rapid solidification effect, as well as those with the addition of ceramic particles, will be developed. The coating of final steel and hard materials will be investigated.
Investigation into pulsatory forming technology including generator of pulses development and description of the influence of pulses on material will be provided. This technology will be applied to industrial production.
The aim is to upgrade conventional cultivation techniques for the mass production of bacterial communities. The microorganisms will perform a cost-effective aerobic biodegradation of target xenobiotics and organic pollutants.
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.
Creation of new systems as original tools to enhance existing and develop new techniques/products in metallurgy with higher service properties at comparatively low production costs and verification of them.
The teamnet project will provide a certified methodology and performance sw tools that will optimise the social and professional relations inside the project teams. The modern sw analysis of network communication accompanied with psychodiagnostic methods will support final optimisation process.