Jasmin is a cloud based it solution for complete job application process designed for job seekers and human resources departments in smes. Jasmin offers simple and user-friendly interface to connect job seekers with companies searching for new employees.
The development of new dental alloys with at least 75% au and pt-group metals. Study of properties, corrosion, functionality and biocompatibility and ease of manufacture as the most important selection criteria.
This project focuses on studying and taking a new approach to the strengthening technology for silver and copper strips used in electro fusing elements
Self-cleaning clay roofing tiles with improved resistance to the action of microorganisms will be developed. Nanocrystalline photocatalytic coatings applied to the ceramic surface will be superhydrophilic, well bonded and durable.
Final surface integrity is of the highest importance in the industrial and technical design. The project will focus on a system for assesing surface quality (nano-, micro-, macro level) in product, tool and mould production.
The aim of this project is to develop a novel reactive nano-multilayered material that enables rapid joining of similar and dissimilar materials, and to develop new technology for the manufacturing of reactive nano-foils.
The project aims to study, design, develop and experiment an advanced ict-based service to support manufacturing smes in achieving supply chain optimisation. The main goal is to develop and test innovative ict-based services for supply chain optimisation.
To develop advanced pneumatic and hydraulic piston valves with much better dynamic properties and low energy consumption based on piezo actuator technology and pistons made of composite materials and hard coatings, for production in the festo plant.
To improve aluminium-magnesium alloy sheets' and plates' properties and make them suitable for marine applications, by improving the (i) property - structure - processing relations, and (ii) welding conditions and (iii) evaluating the recycling potential of aluminium containing vessels.
To improve classical regulation approaches and systems usually based on linear models for the control of temperature processes. An advanced intelligent nonlinear system based on soft computing methods will be developed.