Designing & Building an Entrepreneur Test App with associated Micro Courses.
The aim of the project is to prolong the life-time of p/m ledeburitic steel tools by upgrading the tool material and applying various surfacing techniques.
Utilisation of new steel qualities and technologies will be applied for thin-walled high strength tube production. Trip effect assisted steels combined with bake hardening treatment will be utilised to achieve extraordinary properties.
Conception of combustion locomotive modernisation taking into account life cycle cost (lcc). A prototype will be built with full official certification & exploitation research, and the logistic chain of transit carriages will be redesigned.
Development of an environmentally-safe, renewable new material (a self-destroying plastic granulate) for the production of plastic goods for packaging. The main raw material is derived from agricultural products (potatoes, cereals and corn).
Design of new methods of the production of very pure steel based on 26nicrmov145. New forming and thermomechanical treatment technologies for this material will be also developed. The assumption is to produce devices for power plants from the new developed material.
System of visual detection and recognition of transport parameters - a system for collecting, evaluating and processing data on road transport called high vision.
The main goal of the project is to improve and optimise surface properties of advanced metallic materials through the physical and chemical deposition of thin and hard layers and combinations thereof.
The main goal of the project is to develop a unique welding robot for generating crane rails. An important part of the project is the research and development of optimum welding parameters.
The aim is to develop new types of polymer composites able to face high temperatures (200-400 degrees celsius), fire (class a1 or a2) and seismicity, for adoption in strucutral engineering.