Innovating Works

Ustav fyziky materialu Akademie Ved Cesk...

Desconocido
AddMorePower: Advanced modelling and characterization for power semiconductor materials and technologies Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un HORIZON EUROPE HORIZON-CL4-2022-RESILIENCE-01 The proposed project AddMorePower aims to advance X-ray- and electron-probe related characterization techniques to make them quantitative an...
2022-11-30 - 2026-12-31 | Financiado
topAM: Tailoring ODS materials processing routes for additive manufacturing of high temperature devices for... Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un H2020 H2020-NMBP-ST-IND-2018-2020 Europe’s industry is facing many challenges such as global competition and the big change towards energy and resource efficiency. topAM can...
2020-12-03 - 2024-12-31 | Financiado
SIRAMM: Eastern European twinning on Structural Integrity and Reliability of Advanced Materials obtained th... Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un H2020 H2020-WIDESPREAD-2018-2020 In spite of the growing importance of Additive Manufacturing (AM) technology for producing both plastics and metals parts used in different...
2019-06-20 - 2023-03-31 | Financiado
Back4Future: Back for the Future Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un H2020 H2020-WIDESPREAD-2016-2017 The project Back for the Future (Back4Future) intends to upgrade the currently existing Central European Institute of Technology (CEITEC) se...
2017-07-06 - 2018-08-31 | Financiado
GrInHy: Green Industrial Hydrogen via Reversible High Temperature Electrolysis Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un H2020 H2020-JTI-FCH-2015 High-temperature electrolysis (HT electrolysis) is one of the most promising technologies to address the European Commission´s Roadmap to a...
2016-03-18 - 2019-02-28 | Financiado
CoACH: Advanced glasses Composites And Ceramics for High growth Industries Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un H2020 H2020-MSCA-ITN-2014 The aim of CoACH (Advanced glasses, Composites And Ceramics for High growth Industries) is to offer a multidisciplinary training in the fiel...
2014-12-05 - 2018-12-31 | Financiado
MESOPHYSDEF: Mesoscopic framework for modeling physical processes in multiphase materials with defects Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. tramitó un FP7 Mesoscopic description of physical processes in structural materials is one of the most challenging aspects of understanding their behavior...
Financiado
Z-ultra: Z phase strengthened steels for ultra supercritical power plants Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un FP7 The aim is to develop a heat resistant steel with a 100 000 hour creep strength of 100 MPa at 650°C. This allows increasing the thermal effi...
Financiado
GLACERCO: Glass and Ceramic Composites for High Technology Applications Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un FP7 The aim of this project is to offer a multidisciplinary training in the field of high-tech glasses and composites, in tight contact with com...
Financiado
ROLICER: Enhanced reliability and lifetime of ceramic components through multiscale modelling of degradation... Ustav fyziky materialu Akademie Ved Ceske republiky v.v.i. participó en un FP7 Engineering ceramics possess superior mechanical and physical properties. The exceptional wear, corrosion and contact fatigue resistance of...
Financiado
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