About Project - MATUR FMST VSB-TUO

MATUR

Materials and Technologies for Sustainable Development

The name of the recipient: VSB – Technical University of Ostrava (VSB-TUO)

Principal investigator: prof. Ing. Bohumír Strnadel, DrSc.

Implementation period: 5 years

Funding: 464.165.882 CZK

Partners with financial contributions

Institute of Physics of Materials of the Czech Academy of Sciences (IPM, CAS)

The University of Chemistry and Technology (UCT)

Palacký University Olomouc (UP)

Partners without financial contributions

Brno University of Technology (BUT)

Institute of Technology and Business in České Budějovice (VSTE)

The project aims at creating a centre of excellence in materials and technologies for sustainable development (MATUR), which aims at interdisciplinary research with a high potential for the creation of cutting-edge and future applicable research results with overlap into various fields of human society in an international context. The MATUR Centre of Excellence will be built on an excellent research team and on the development of international cooperation between research organisations.

The project, within the scope of 4 research plans, addresses current issues of the disciplines of materials engineering, whose research results will lead not only to sustainable development, but also to an economic benefit in the form of development of the competitiveness of the Czech Republic. Research Plans and Their Division into Research Activities:

RWP1 Hybrid silicate materials and their technological applications

WP1/1 Silicates for 3D printing technology
WP1/2 Hybrid concrete mixes using recyclates and concrete surfaces with self-cleaning properties

RWP2 Materials for high temperature technologies in the energy sector

WP2/1 Materials for the accumulation of high-potential thermal energy
WP2/2 Materials for accumulation, release and transport of hydrogen
WP2/3 Microstructural stability, mechanical properties and corrosion resistance of welded joints in energy equipment

RWP3 Materials and technologies reducing the environmental impact of used industrial products

WP3/1 Design of progressive column devices with multi-functional filters for recycling and processing of waste materials for energy storage
WP3/2 Friction composites for automotive braking systems in sustainable mobility
WP3/3 Sustainable refurbishment of selected automotive parts

RWP4 Multifunctional nanostructure materials and technologies

WP4/1 Solar Fuel Cells
WP4/2 Security Holography and Topological Photonic Elements
WP4/3 Terahertz Ellipsometry for Sensing and Advanced Materials Dynamics Studies
WP4/4 Polymer and ceramic nanocomposite materials with specific properties
RWP4/5 Preparation and Application of Corrosion and Wear Resistant Oxide Coatings.

Important Czech and international workplaces, which decisively impact the directions of development of sectoral scientific research and development activities, will participate in the solution. Effective communication and interconnection of the infrastructure of the work sites involved in the project will enable the effective acquisition of new knowledge and the development of interdisciplinary approaches in materials engineering. Within their framework, the researchers will also address highly topical issues that are necessary for the region and the country and at the same time key for the European Commission, as they reflect important strategies such as the Green Deal, Digital Europe, and the UN's "17 Sustainable Development Goals" agenda for the period 2015-2030.

Konference

EU MŠMT Barevné AJ CMYK