Development of new high resistance non-woven mats combining rcf and nf to be used in a more efficient compression moulding process. In addition, it is proposed a new concept of equipment to simulate the effect of environmental and storage conditions on voc and odour behaviour of the new materials.
The result of the project is a portable welding device that will be much lighter, more flexible and easily transportable across the stairs. The device will be made of several components, of which none will exceed e.G. 50 kg. The device will use a new generation of lasers (fibre lasers).
To define solutions to arrange precision clamping and position and angle adjustment of a micro- or thin-walled workpiece near the working area directly in a new type of adaptive workpiece holder with clamping force control and pattern recognition for higher repeatability.
To develop a novel inkjet-based tampon printing process for digital multi-color graphical printing of individualized freeform babyproducts. The process consists of inkjet-printing onto a flat microstructured pad and subsequent transfer of the ink onto the freeform substrate.
The project aims to enable a system to replace the side mirrors on a motor vehicle to go to market. This is done, e.G., By driving legislative aspects (homologation), consumer acceptance (user studies) and development of the hw and sw required to compose the system based on cameras and monitors.
Design and development of a data base system for long-haul bus traveling and multimodal bus-terminal information providing integrated planning and real-time information for passengers
A-nomad is an advanced intelligent automatic guided vehicle system, which enables the producers in manufacturing industries to significantly improve the efficiency, flexibility and speed of their transport and logistic operations.
Grinding is a challenging operation due to demanding specifications and difficult machinability of the parts. In this project, intelligent tools to prevent burning damage will be developed: wheel integrated temperature sensor, adapted machine, grinding model, and cnc software.
This project will develop a smart correction method for the purpose of zero-defect manufacturing that minimizes the thermally induced errors automatically during production. The method is based on innovative sensors that can detect structural deformations induced by all existing thermal effects.
An advanced tribological surface engineering solution based on ultrathick coatings (x10 conventional thickness) is proposed to increase in a 35% the lifetime of forming dies when extremely high demanding operations on high strength steels (hss) are considered