The project goal is to develop innovative technologies for efficient use of auxiliary materials with low toxicity in leather processing for footwear uppers and lining
”New Machinery Research And Development or Packaging And Weighing In The Field Of Tubolar Packaging”
In-line control system for production of Nanodesigned coatings and enhanced analysis of low Z-elements based on LIBS.
Elaboration of good quality, attractive and ecological textile products using naturally coloured cotton, and development of a technology to process coloured cotton in spinning mills.
Innovation in processing technologies to manufacture medical leathers, shoe upper/linings for increased health and comfort efficiency.
Aims to investigate the physical and chemical properties of some modern textile fibres in order to develop advanced methods and norms for distinguishing them from raw materials and woven fabrics.
Measuring humidity and controlling the humidity level precisely in special refrigerator compartments especially demanding high humidity levels such as vegetable and fruit compartments in order to improve the present refrigeration performance.
This research is concerned primarily with electrically conductive textiles. The work that would be carried out would focus on the design for intelligent wearable garment from a knitwear design perspective. The knitwear technique, and garment design skill have to be integrated interactively.
The project goal is the creation of innovative self-cleaning, self-sterilizing and antibacterial textiles by coating textiles with new nanostructured photocatalytic compounds with extended absorption in visible range.
The main objective of the project is the development of novel multifunctional textile structures that include biological active compounds extracted from plants, to prevent the spreading of infectious diseases like borreliosis and other tick-borne bacterial diseases.