Add to ORKGThis research is focused on diphasic dielectric composites for high energy density storage applications in pulsed power and power distribution systems. Composite materials are particularly attractive because they can synergistically combine high permittivity with high breakdown strength of the individual phases. Energy density, which captures permittivity and dielectric breakdown strength as vital material parameters, dominates this research challenge. Avenues for increasing the effective permittivity and breakdown strength may be found by gaining fundamental understanding of the response of diphasic dielectrics to an applied electric field. Improved understanding of these characteristics will ultimately lead to dielectrics with increased e...
The electric field distribution, field and power density enhancement factors, power loss and stored ...
The volume and weight of high power antennas can be a limiting factor for directed energy systems. B...
Title from PDF of title page (University of Missouri--Columbia, viewed on May 30, 2013).The entire t...
This research is focused on diphasic dielectric composites for high energy density storage applicati...
Modeling of electrostatic field distribution and energy storage in diphasic dielectrics containing h...
Modeling of electrostatic field distribution and energy storage in diphasic dielectrics containing h...
An analytical model based on an equivalent capacitance circuit for expressing a static effective per...
Fiber reinforced polymer matrix composite materials have many unique properties and their high perfo...
Dielectric materials with large electric energy density are actively pursued for many applications. ...
In high-energy density pulsed power capacitors, high permittivity particles are dispersed within a h...
Polymers have found applications as dielectrics in high energy density capacitors owing to their low...
The rapid implementation and improvement of renewable energy technologies require advanced dielectri...
This review summarizes the current state of polymer composites used as dielectric materials for ener...
Finite element methods can be used to study the effect of microstructure on the electrical propertie...
Phase field modeling and computer simulation is employed to study dielectric composites with core-sh...
The electric field distribution, field and power density enhancement factors, power loss and stored ...
The volume and weight of high power antennas can be a limiting factor for directed energy systems. B...
Title from PDF of title page (University of Missouri--Columbia, viewed on May 30, 2013).The entire t...
This research is focused on diphasic dielectric composites for high energy density storage applicati...
Modeling of electrostatic field distribution and energy storage in diphasic dielectrics containing h...
Modeling of electrostatic field distribution and energy storage in diphasic dielectrics containing h...
An analytical model based on an equivalent capacitance circuit for expressing a static effective per...
Fiber reinforced polymer matrix composite materials have many unique properties and their high perfo...
Dielectric materials with large electric energy density are actively pursued for many applications. ...
In high-energy density pulsed power capacitors, high permittivity particles are dispersed within a h...
Polymers have found applications as dielectrics in high energy density capacitors owing to their low...
The rapid implementation and improvement of renewable energy technologies require advanced dielectri...
This review summarizes the current state of polymer composites used as dielectric materials for ener...
Finite element methods can be used to study the effect of microstructure on the electrical propertie...
Phase field modeling and computer simulation is employed to study dielectric composites with core-sh...
The electric field distribution, field and power density enhancement factors, power loss and stored ...
The volume and weight of high power antennas can be a limiting factor for directed energy systems. B...
Title from PDF of title page (University of Missouri--Columbia, viewed on May 30, 2013).The entire t...