Scholars' Mine
Missouri S&T
Research Repository
Curtis Laws Wilson Library
400 W. 14th Street
Rolla, MO 65409-0060
scholarsmine@mst.edu
| Title: | Modeling and simulations of diphasic composites for development of high energy density dielectrics | |
| Alternate Title: | Modeling of field distribution and energy storage in diphasic dielectrics. Prediction of effective permittivity of diphasic dielectrics as a function of frequency. Prediction of effective permittivity of diphasic dielectrics using an equivalent capacitance model. | |
| Author (s): | Patil, Sandeep Kesharsingh, 1980- | |
| Advisor(s): | Huebner, Wayne Schwartz, Robert W. | |
| Issue Date: | 2008 | |
| Publisher: | Missouri University of Science and Technology | |
| Citation: | Patil, Sandeep. " Modeling and Simulation of Diphasic Composites For Development of High Energy Density Dielectrics." Ph.D. Dissertation, Materials Science and Engineering, Missouri University of Science and Technology, 2008. | |
| Abstract: | "This 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 energy storage densities. Current research is centered on improving the understanding of dielectric composite response through analytical modeling, numerical simulations and experimental work"--Introduction, p. 18. | |
| Type: | Thesis/Dissertation text | |
| Copyright Notice: | These materials are protected under copyright by the original author. | |
| Link to this page: | ||
| URL: | ||
| Full Text: |
|
| title | Modeling and simulations of diphasic composites for development of high energy density dielectrics | |
| title.alternative | Modeling of field distribution and energy storage in diphasic dielectrics. | |
| title.alternative | Prediction of effective permittivity of diphasic dielectrics as a function of frequency. | |
| title.alternative | Prediction of effective permittivity of diphasic dielectrics using an equivalent capacitance model. | |
| contributor.advisor | Huebner, Wayne | |
| contributor.advisor | Schwartz, Robert W. | |
| contributor.author | Patil, Sandeep Kesharsingh, 1980- | |
| subject.LCSH | Composite materials. | |
| subject.LCSH | Dielectrics. | |
| subject.LCSH | Energy level densities. | |
| subject.LCSH | Pulsed power systems. | |
| date.issued | 2008 | |
| publisher | Missouri University of Science and Technology | |
| identifier.URI | ||
| identifier.citation | Patil, Sandeep. " Modeling and Simulation of Diphasic Composites For Development of High Energy Density Dielectrics." Ph.D. Dissertation, Materials Science and Engineering, Missouri University of Science and Technology, 2008. | |
| identifier.oclc | 225863479 | |
| description | Includes bibliographical references. | |
| description | Mode of access: World Wide Web. | |
| description | System requirements: Adobe Acrobat Reader; Internet browser. | |
| description | The entire thesis text is included in file. | |
| description | Thesis (Ph. D.)--Missouri University of Science and Technology, 2008. | |
| description | Title from title screen of thesis/dissertation PDF file (viewed April 21, 2008) | |
| description | Vita. | |
| description.abstract | "This 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 energy storage densities. Current research is centered on improving the understanding of dielectric composite response through analytical modeling, numerical simulations and experimental work"--Introduction, p. 18. | |
| description. statementOfResponsibility | by Sandeep Kesharsingh Patil. | |
| type | Thesis/Dissertation | |
| type.DCMIType | text | |
| rights | These materials are protected under copyright by the original author. | |
| language.ISO639-2 | eng | |
| format.extent | xiv, 152 p. : ill., digital, PDF file. | |
| date.accessioned | 2008-04-17T22:43:28Z | |
| date.available | 2008-04-21T15:28:47Z | |
| identifier.persist.URI | ||
| Full Text |
|