Materiales granulares para almacenamiento térmico

Building intelligence into metallic parts manufacturing

Sostenibilidad y Medio Ambiente

Building greener and more sustainable transformation processes

Characterization of the Ratcheting Effect on the Filler Material of a Steel Slag-Based Thermal Energy Storage

Access the mechanical and thermal fatigue in packed bed thermal energy storage concept

Utilization of steel slag as mold material for green molding castings to minimize silica dust in foundry process

Experimental validation of steel slag as thermal energy storage material in a 400 kWht prototype

Spent foundry sand valorization in construction sector through the validation of high-performance applications

Integration of a novel mechanical sand reclamation technology in a steel foundry to maximise SFS valorisation in foundry and construction applications

Materiales granulares para almacenamiento térmico

Building intelligence into metallic parts manufacturing

Sostenibilidad y Medio Ambiente

Building greener and more sustainable transformation processes

Characterization of the Ratcheting Effect on the Filler Material of a Steel Slag-Based Thermal Energy Storage

Access the mechanical and thermal fatigue in packed bed thermal energy storage concept

Utilization of steel slag as mold material for green molding castings to minimize silica dust in foundry process

Experimental validation of steel slag as thermal energy storage material in a 400 kWht prototype

Spent foundry sand valorization in construction sector through the validation of high-performance applications

Integration of a novel mechanical sand reclamation technology in a steel foundry to maximise SFS valorisation in foundry and construction applications

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