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.
Development of recycling technologies for the production of steel-making modifiers from industrial ash waste instead of natural products such as caf2, cac2, al, mg and others.
To research, develop, construct and manufacture new types of multifunctional warp knitted and woven textile materials and clothing applying the latest and upcoming fabric innovatons for workwear.
New elisa kits for detection of environmental pollutants on the basis of new monoclonal antibodies
The aim is to focus on and study contamination control mechanisms and technologies of fibrous engineered textile products and to develop new types of fibrous products, active finishings, their processing and new business service activities.
To develop and realise new functionalised textiles with high added value, barrier and filter properties impressing on specially designed and customised textile constructions and technologies of (multi)functional treatments, incl. Nano-fibre and nano-surface structures.
New technology will be developed for stainless steel concrete anchors production by thermomechanical processing of low ni and ni-free steel grades to reach the best balance between the anchor cost and its performance (1200-1500 mpa tensile strength, 10-12% elongation, high corrosion resistance)