As aeroengine thrust-to-weight ratios continue to improve, the operating temperature of their hot-end components has risen steadily, placing stricter demands on the performance of temperature sensors.

Combining metals to produce alloys that are stronger or tougher requires extremely high temperatures as part of the process.

High-entropy ceramics have potential to improve the mechanical properties and high-temperature stability over traditional ceramics, and high entropy nitrides and carbonitrides (HENs and HECNs) are ...

As a newcomer in the alloy material world, high-entropy alloys exceed the traditional alloy design concept as they possess more than five elements, and generally exhibit a simple solid solution ...

Refractory high-entropy alloys (RHEAs) show significant elevated-temperature yield strengths and have potential to use as high-performance materials in gas turbine engines. Exploring the vast RHEA ...

image: HIGH-TEMPERATURE SHOCK (HTS) FEATURES ULTRAFAST HEATING/COOLING RATE （＞10^5 K/S） AND IS SUITABLE FOR THE FABRICATION OF CATALYTIC HIGH-ENTROPY ALLOYS (HEA). WE PRESENT THE PHYSICOCHEMICAL ...

An international research team led by scientists from City University of Hong Kong (CityU) has recently discovered that high-entropy alloys (HEAs) exhibit exceptional mechanical properties at ...

An international research team has recently discovered that high-entropy alloys (HEAs) exhibit exceptional mechanical properties at ultra-low temperatures due to the coexistence of multiple ...