The project goal is to develop eco-friendly thermoplastics as a composite of polymers and natural fibres like wood, flax, jute, etc. The application guidelines will describe parts properties and injection moulding process parameters.
Design and testing of precast composite fire and water resistant segments for secondary tunnel lining. They would also serve as a self-supporting formwork for filling of fresh concrete between the elements and the primary tunnel lining.
There are two main challenges: 1. To become sustainable by reducing resource consumption, managing transport and utility networks in a sustainable way, reducing environmental and man-made impacts, improving safety and security and protecting cultural heritage; 2. To become a demand-driven sector.
Flexible computer based continuous quality control for automatic production lines will be developed, tested and implemented. The system will provide 100% automatic quality control and will be easy to implement in different production lines.
The project will develop drilling processes and the use of suitable equipment for drilling holes using geothermal potential, construct optimal machinery for drilling and optimise the use of geothermal energy.
The aim is to design and develop precast fire resistant concrete elements using industrial waste materials.
Ues delivers the next generation of methods and means for development and production of hi-tech products in modern manufacturing enterprises. A synergetic result comes from the domains of a) management and control architecture, b) distributed systems of ict, c) ubiquitous oriented embedded systems.
By integrating new generation mould, robots, working standards and people involvement, shorter production cycle time, better process capability at lower scrap, reduced material and energy consumption, a new, highly competitive production process will be developed.
Sheet metal forming is one of the most important processes in the automotive industry production. The project will focus on the development of smart tool for sheet metal forming with integrated servo systems and sensors for optimization of forming processes.
The main purpose of the project is development of an advanced light-line system, which may completely adapt to optional architecture and space functional needs as well as dynamically changes the light spectrum by having a positive impact on the well-being and activity of people in a space.