High-entropy alloys (HEAs) represent a class of multi-principal-element metallic materials that derive remarkable thermal stability and oxidation resistance from their core effects, including high ...

Industrial oxidation chemistry is a cornerstone of modern manufacturing, accounting for nearly one-third of all chemical ...

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 ...

When Cambium’s high-temperature material flew on the University of Southern California Rocket Propulsion Laboratory’s (USCRPL ...

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 ...

Trilogy design of cross-linked polyether electrolytes for high-voltage and wide-temperature lithium metal batteries. Schematic illustration of the trilogy design strategy. (①) Tuning the monomer from ...

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 ...

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 ...

This is precisely where the Fraunhofer Institute for Surface Engineering and Thin Films IST comes in. With an expanded infrastructure, the institute can now map the entire process chain for the ...

As described in chapter 2, the primary purposes of high-temperature structural coatings are to enable high temperature components to operate at even higher temperatures, to improve component ...