UAVOS announces the successful implementation of an advanced manufacturing technology for its composite rotor blades: core sintering without additional mechanical processing. This technology ...

Lithium-ion batteries have been a staple in device manufacturing for years, but the liquid electrolytes they rely on to function are quite unstable, leading to fire hazards and safety concerns. Now, ...

Field-assisted sintering technology has revolutionized materials processing by integrating temperature, mechanical, and electrical fields to achieve unprecedented densification efficiency and ...

Iron ore granulation and sintering technology encompasses the processes that transform fine iron ore particles into coherent multicomponent agglomerates suitable for use in blast furnaces. Granulation ...

In this study, the layered anisotropic structure of β-Li₂TiO₃ enables preferential dislocation slip under high pressure, amplified by nanoscale stress concentration, driving plastic deformation to ...

Flash sintering enables low-energy production of lunar regolith building materials for in-situ resource utilisation.

Penn State researchers developed a low-temperature (150°C) method to produce solid-state battery electrolytes. Solid-state batteries offer greater energy density, safety, and charging speed, but have ...

Solid oxide electrolysis cells (SOECs), a key technology for producing green hydrogen without carbon emissions, require a high-temperature "sintering" process to harden ceramic powders. Researchers at ...

With the trend from Si IGBT to SiC MOSFET in electric vehicle (EV) power electronics, the junction temperature is expected to increase from 150°C to 175°C with the potential to exceed 200°C. This ...