Add to ORKGFlash sintering occurs when an electric field is applied to a heated ceramic powder compact. At a critical combination of field and temperature, a power surge occurs (the "flash event") and sintering takes place in a few seconds. This paper investigates the possibility that this surge occurs by runaway Joule heating. The resistivity of 3YSZ was measured under the relevant conditions. To a good approximation, resistivity was found to be history-independent and to have the same temperature dependence before and after the flash event. These data were used to model the thermal and electrical response of 3YSZ to an applied electric field. All electrical characteristics of the flash event observed experimentally were predicted with a high degree ...
Flash sintering has drawn attention at the science community because of its capable of densifying ma...
The application of an electric field over a ceramic powder compact at elevated temperatures gives ri...
Flash sintering of oxide powders is associated with dissipated power in the narrow range 10–50 W...
Flash sintering occurs when an electric field is applied to a heated ceramic powder compact. At a cr...
Flash sintering is a newly developed technique to quickly densify conductive ceramics in the presenc...
The abrupt conductivity surge of 8YSZ was achieved with applied electric field and temperature after...
We provide evidence for temperature-driven flash sintering process, accounting for otherwise interpr...
“Flash sintering” is an ultrafast sintering technique which enables the densification of conductive ...
It has recently been reported that ceramics can be sintered in a few seconds with the aid of an elec...
Flash sintering is a novel electric field and current assisted sintering technique which densify cer...
In this work we mathematically model the densification of ceramics under flash sintering using a mod...
A new method for the sintering of ceramics will be presented in detail. This method called Flash-Sin...
Flash sintering of ZnO, TiO2 and a few other oxide systems has been investigated. A quantitative mod...
In this study, the evolution of the electrical resistivity of metal powders during densification and...
The recently discovered flash sintering technique has shown that the application of a sufficiently l...
Flash sintering has drawn attention at the science community because of its capable of densifying ma...
The application of an electric field over a ceramic powder compact at elevated temperatures gives ri...
Flash sintering of oxide powders is associated with dissipated power in the narrow range 10–50 W...
Flash sintering occurs when an electric field is applied to a heated ceramic powder compact. At a cr...
Flash sintering is a newly developed technique to quickly densify conductive ceramics in the presenc...
The abrupt conductivity surge of 8YSZ was achieved with applied electric field and temperature after...
We provide evidence for temperature-driven flash sintering process, accounting for otherwise interpr...
“Flash sintering” is an ultrafast sintering technique which enables the densification of conductive ...
It has recently been reported that ceramics can be sintered in a few seconds with the aid of an elec...
Flash sintering is a novel electric field and current assisted sintering technique which densify cer...
In this work we mathematically model the densification of ceramics under flash sintering using a mod...
A new method for the sintering of ceramics will be presented in detail. This method called Flash-Sin...
Flash sintering of ZnO, TiO2 and a few other oxide systems has been investigated. A quantitative mod...
In this study, the evolution of the electrical resistivity of metal powders during densification and...
The recently discovered flash sintering technique has shown that the application of a sufficiently l...
Flash sintering has drawn attention at the science community because of its capable of densifying ma...
The application of an electric field over a ceramic powder compact at elevated temperatures gives ri...
Flash sintering of oxide powders is associated with dissipated power in the narrow range 10–50 W...