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Aluminide coatings have emerged as a pivotal technology for enhancing oxidation resistance in high-temperature environments. Formed predominantly through controlled diffusion of aluminium into ...

High-temperature ceramic matrix composites represent a critical class of materials engineered to withstand extreme thermal, mechanical and chemical stresses. These composites integrate ...

As discussed in chapters 2 and 3, most hot structures are fabricated from superalloys that have been tailored to meet the demands of turbine engine operation. Specific solutions to problems ...

Creeps are characterized as time-dependent permanent deformations that occur under constant stress at elevated temperatures. The material composition determines the onset of creep. For example, steel ...

Scientists have developed a chromium-molybdenum-silicon alloy that withstands extreme heat while remaining ductile and oxidation-resistant. It could replace nickel-based superalloys, which are limited ...

A strategy of multiscale collaborative design which combines high-entropy effect, dual-phase composition, highly porous structure and foam-gelcasting-freeze drying technique leads to uniform element ...

K3RX (pronounced “care-x”) is a spin-off from Italy’s National Research Council – Institute of Science Technology and Sustainability for Ceramics (CNR-ISSMC) in Faenza. The company was co-founded by ...

High-temperature alloys are a critical component used in aerospace manufacturing. These alloys are designed to withstand extreme conditions encountered by an aircraft during its flight, including high ...