Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping

Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping

abstract: In this research work, the process optimization of silver iodide-silver meta phosphate ionic glass molding for solid state super ionic stamping was performed. Solid state super ionic stamping is a process of all solid ambient condition electrochemical nano patterning technique. In solid st...

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Other Authors: PANIKKAR, GAUTAM (Author)
Format: Dissertation
Language:English
Published: 2015
Subjects:
Mechanical engineering
Materials Science
Online Access:http://hdl.handle.net/2286/R.I.34781
id ndltd-asu.edu-item-34781
record_format oai_dc
spelling ndltd-asu.edu-item-347812018-06-22T03:06:26Z Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping abstract: In this research work, the process optimization of silver iodide-silver meta phosphate ionic glass molding for solid state super ionic stamping was performed. Solid state super ionic stamping is a process of all solid ambient condition electrochemical nano patterning technique. In solid state super ionic stamping, anodic dissolution on a solid electrolyte –metal interface and subsequent charge-mass transport in the solid electrolyte is used for obtaining nanometer features on the metallic surface. The solid electrolyte referred to as the stamp is pre-patterned with features to be obtained on the metallic surface. This research developed the process for obtaining stamp with specific dimensions by making use of compression molding. The compression molding process was optimized by varying the five process parameters-temperature, pressure, holding time, pressing time and cooling time. The objective of the process optimization was to obtain best geometrical features for the stamp including flatness and surface roughness and by optimizing the compression molding process, stamp with minimum flatness and surface roughness was obtained. After the experimental optimization of the process was completed, statistical analysis was performed to understand the relative significance of the process parameters and the interaction of the process parameters on the flatness and surface roughness values of the molded stamp. Structural characterization was performed to obtain the variation of average domain size of ionic glass particles within the molded glass disk by varying the process parameters of holding time, pressing time and cooling time. Dissertation/Thesis PANIKKAR, GAUTAM (Author) Hsu, Keng H (Advisor) Chan, Candace (Committee member) Jiang, Hanqing (Committee member) Arizona State University (Publisher) Mechanical engineering Materials Science eng 119 pages Masters Thesis Mechanical Engineering 2015 Masters Thesis http://hdl.handle.net/2286/R.I.34781 http://rightsstatements.org/vocab/InC/1.0/ All Rights Reserved 2015
collection NDLTD
language English
format Dissertation
sources NDLTD
topic Mechanical engineering
Materials Science
spellingShingle Mechanical engineering
Materials Science
Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping
description abstract: In this research work, the process optimization of silver iodide-silver meta phosphate ionic glass molding for solid state super ionic stamping was performed. Solid state super ionic stamping is a process of all solid ambient condition electrochemical nano patterning technique. In solid state super ionic stamping, anodic dissolution on a solid electrolyte –metal interface and subsequent charge-mass transport in the solid electrolyte is used for obtaining nanometer features on the metallic surface. The solid electrolyte referred to as the stamp is pre-patterned with features to be obtained on the metallic surface. This research developed the process for obtaining stamp with specific dimensions by making use of compression molding. The compression molding process was optimized by varying the five process parameters-temperature, pressure, holding time, pressing time and cooling time. The objective of the process optimization was to obtain best geometrical features for the stamp including flatness and surface roughness and by optimizing the compression molding process, stamp with minimum flatness and surface roughness was obtained. After the experimental optimization of the process was completed, statistical analysis was performed to understand the relative significance of the process parameters and the interaction of the process parameters on the flatness and surface roughness values of the molded stamp. Structural characterization was performed to obtain the variation of average domain size of ionic glass particles within the molded glass disk by varying the process parameters of holding time, pressing time and cooling time. === Dissertation/Thesis === Masters Thesis Mechanical Engineering 2015
author2 PANIKKAR, GAUTAM (Author)
author_facet PANIKKAR, GAUTAM (Author)
title Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping
title_short Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping
title_full Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping
title_fullStr Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping
title_full_unstemmed Process Characterization of Silver Iodide-Silver Metaphosphate Ionic Glass Molding For Solid State Superionic Stamping
title_sort process characterization of silver iodide-silver metaphosphate ionic glass molding for solid state superionic stamping
publishDate 2015
url http://hdl.handle.net/2286/R.I.34781
_version_ 1718700843011670016

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