Project METEX
Metamaterials for extremely thermally stressed machine components
The project focuses on mechanical metamaterials suitable for energy-intensive applications at high temperatures. Specific applications are motivated by the needs of the foundry industry and the demand for new materials in the energy sector, including future materials for fourth-generation nuclear reactors.
METEX
Metamaterials for extremely thermally stressed machine components
The project focuses on mechanical metamaterials suitable for energy-intensive applications at high temperatures. Specific applications are motivated by the needs of the foundry industry and the demand for new materials in the energy sector, including future materials for fourth-generation nuclear reactors.
Project METEX
Metamaterials for extremely thermally stressed machine components
The project focuses on mechanical metamaterials suitable for energy-intensive applications at high temperatures. Specific applications are motivated by the needs of the foundry industry and the demand for new materials in the energy sector, including future materials for fourth-generation nuclear reactors.
METEX
Metamaterials for extremely thermally stressed machine components
The project focuses on mechanical metamaterials suitable for energy-intensive applications at high temperatures. Specific applications are motivated by the needs of the foundry industry and the demand for new materials in the energy sector, including future materials for fourth-generation nuclear reactors.
Project METEX
Metamaterials for extremely thermally stressed machine components
The project focuses on mechanical metamaterials suitable for energy-intensive applications at high temperatures. Specific applications are motivated by the needs of the foundry industry and the demand for new materials in the energy sector, including future materials for fourth-generation nuclear reactors.
METEX
Metamaterials for extremely thermally stressed machine components
The project focuses on mechanical metamaterials suitable for energy-intensive applications at high temperatures. Specific applications are motivated by the needs of the foundry industry and the demand for new materials in the energy sector, including future materials for fourth-generation nuclear reactors.