Add to ORKGIn order to establish the relative contributions of thermal and athermal mechanisms to densification in the absence of an extrinsic sintering pressure, nanometric powder compacts were sintered with and without applied fields using varied heating rates from 50 °C/min up to 800 °C/min. The relative contribution of the thermal and athermal mechanistic contributions to the densification behavior of two model dielec. ceramics, hydroxyapatite and zinc oxide, is evaluated in the context of the current leading theories of field-assisted sintering mechanisms. The effects of elevated heating rates in nanometric, dielec. ceramics are found to be minimal in the absence of a field. However, in the presence of an applied field there appears to be a sy...
This study aims at comparing hot pressing (HP) and the electric field-assisted sintering technique (...
The densification and creep rates of polycrystalline zinc oxide and of alumina powder compacts have ...
Advanced ceramic products for highly demanding applications in electronics, energy, healthcare and d...
In order to establish the relative contributions of thermal and athermal mechanisms to densification...
Two types of powders, electrically conductive MoSi2 and insulating a-Al2O3, were sintered by a field...
The sintering of zinc oxide powder compacts has been investigated at constant rates of heating of 0....
Recent investigations regarding the role of applied fields on the grain growth and densification beh...
Heating rate plays a major role in the ceramic sintering process, especially in many new advanced si...
Better understanding of densification of ceramic powders led to the development of new sintering tec...
This article presents an approach to fabricate microcomponents using multiphysical field sintering t...
Using Field Assisted Sintering Technique/Spark Plasma Sintering the effect of heating rate on the si...
It has recently been reported that ceramics can be sintered in a few seconds with the aid of an elec...
Ni nanopowders were sintered by a field-assisted sintering technique (FAST). The influence of heatin...
The densification behavior of hydroxyapatite nanorods prepared by chemical precipitation method in o...
The densification behavior of hydroxyapatite nanorods prepared by chemical precipitation method in o...
This study aims at comparing hot pressing (HP) and the electric field-assisted sintering technique (...
The densification and creep rates of polycrystalline zinc oxide and of alumina powder compacts have ...
Advanced ceramic products for highly demanding applications in electronics, energy, healthcare and d...
In order to establish the relative contributions of thermal and athermal mechanisms to densification...
Two types of powders, electrically conductive MoSi2 and insulating a-Al2O3, were sintered by a field...
The sintering of zinc oxide powder compacts has been investigated at constant rates of heating of 0....
Recent investigations regarding the role of applied fields on the grain growth and densification beh...
Heating rate plays a major role in the ceramic sintering process, especially in many new advanced si...
Better understanding of densification of ceramic powders led to the development of new sintering tec...
This article presents an approach to fabricate microcomponents using multiphysical field sintering t...
Using Field Assisted Sintering Technique/Spark Plasma Sintering the effect of heating rate on the si...
It has recently been reported that ceramics can be sintered in a few seconds with the aid of an elec...
Ni nanopowders were sintered by a field-assisted sintering technique (FAST). The influence of heatin...
The densification behavior of hydroxyapatite nanorods prepared by chemical precipitation method in o...
The densification behavior of hydroxyapatite nanorods prepared by chemical precipitation method in o...
This study aims at comparing hot pressing (HP) and the electric field-assisted sintering technique (...
The densification and creep rates of polycrystalline zinc oxide and of alumina powder compacts have ...
Advanced ceramic products for highly demanding applications in electronics, energy, healthcare and d...