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.
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.
The project will develop the application integrating xml intelligent forms with voice engine able to communicate with doctors, patients and medical information systems so that a patient's medical records would be accessible instantaneously at a sick bed during the doctor's round.
We plan to develop the novel electronic application that will allow users to find the solution how to act in cases when in the company appears a problem or issue considering tax, legal or financial sector.
The aim of this project is to observe osteoblast behaviour on two different titanium surfaces: airborne-particle blasted and acid etched titanium and nanolayers of gold alloys on a titanium surface.
With the medis project (modular hospital trunking system), they want to produce a user-friendly product, which will in addition to providing perfect lighting also enable a more comfortable living for the patient and an easier health care performance for the health care personnel.
To develop new orthodontic ni-ti wire, which will be biocompatible and "comfortable" for the patient. By using the shape memory alloys the duration and pain of orthodontic treatment will be reduced.