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Formation of omega and Ti sub(2)Ni phases in a residual Ti-Ni-Ti multilayer between stainless steel and zirconia after bonding at 1173 K

Stainless steel (316L) and 8 mol pct Y sub(2)O sub(3)-stabilized zirconia (8Y-ZrO sub(2)) were bonded using a Ti-Ni-Ti multilayer at 1173 K (900 degree C) for 1 h. Cross-sectional transmission electron microscopy specimens were prepared by an innovative focused ion beam plus lift-out technique. In a...

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Published in:	Philosophical magazine letters 2014-10, Vol.94 (10), p.609-619
Main Authors:	Wei, Shen-Hung, Lin, Chien-Cheng
Format:	Article
Language:	English
Subjects:	Austenitic stainless steels Foils Heat resistant steels Multilayers Nickel Precipitation Stainless steels Titanium Zirconium dioxide
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creator	Wei, Shen-Hung Lin, Chien-Cheng
description	Stainless steel (316L) and 8 mol pct Y sub(2)O sub(3)-stabilized zirconia (8Y-ZrO sub(2)) were bonded using a Ti-Ni-Ti multilayer at 1173 K (900 degree C) for 1 h. Cross-sectional transmission electron microscopy specimens were prepared by an innovative focused ion beam plus lift-out technique. In addition to acicular alpha -Ti, the dissolution of Fe, Cr, and Ni diffusing outwards from 316L into beta -Ti led to the precipitation of the omega ( omega ) phase with different variants in the residual Ti foil between 316L and Ni. The omega -phase was not found in the residual Ti foil between Ni and 8Y-ZrO sub(2), while Ti sub(2)Ni precipitates were precipitated in some alpha -Ti grains owing to the exclusion of Ni from the beta -Ti.
doi_str_mv	10.1080/09500839.2014.951705
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Cross-sectional transmission electron microscopy specimens were prepared by an innovative focused ion beam plus lift-out technique. In addition to acicular alpha -Ti, the dissolution of Fe, Cr, and Ni diffusing outwards from 316L into beta -Ti led to the precipitation of the omega ( omega ) phase with different variants in the residual Ti foil between 316L and Ni. The omega -phase was not found in the residual Ti foil between Ni and 8Y-ZrO sub(2), while Ti sub(2)Ni precipitates were precipitated in some alpha -Ti grains owing to the exclusion of Ni from the beta -Ti.</description><identifier>ISSN: 0950-0839</identifier><identifier>EISSN: 1362-3036</identifier><identifier>DOI: 10.1080/09500839.2014.951705</identifier><language>eng</language><subject>Austenitic stainless steels ; Foils ; Heat resistant steels ; Multilayers ; Nickel ; Precipitation ; Stainless steels ; Titanium ; Zirconium dioxide</subject><ispartof>Philosophical magazine letters, 2014-10, Vol.94 (10), p.609-619</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>Wei, Shen-Hung</creatorcontrib><creatorcontrib>Lin, Chien-Cheng</creatorcontrib><title>Formation of omega and Ti sub(2)Ni phases in a residual Ti-Ni-Ti multilayer between stainless steel and zirconia after bonding at 1173 K</title><title>Philosophical magazine letters</title><description>Stainless steel (316L) and 8 mol pct Y sub(2)O sub(3)-stabilized zirconia (8Y-ZrO sub(2)) were bonded using a Ti-Ni-Ti multilayer at 1173 K (900 degree C) for 1 h. Cross-sectional transmission electron microscopy specimens were prepared by an innovative focused ion beam plus lift-out technique. In addition to acicular alpha -Ti, the dissolution of Fe, Cr, and Ni diffusing outwards from 316L into beta -Ti led to the precipitation of the omega ( omega ) phase with different variants in the residual Ti foil between 316L and Ni. The omega -phase was not found in the residual Ti foil between Ni and 8Y-ZrO sub(2), while Ti sub(2)Ni precipitates were precipitated in some alpha -Ti grains owing to the exclusion of Ni from the beta -Ti.</description><subject>Austenitic stainless steels</subject><subject>Foils</subject><subject>Heat resistant steels</subject><subject>Multilayers</subject><subject>Nickel</subject><subject>Precipitation</subject><subject>Stainless steels</subject><subject>Titanium</subject><subject>Zirconium dioxide</subject><issn>0950-0839</issn><issn>1362-3036</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><recordid>eNqVzE1OwzAQhmELgUT4uQGLWZZFwjhO0maNqJCQuuq-cptJGeTYJWMLwQk4NgniAqy-b_HoVepOY6FxhQ_Y1ogr0xYl6qpoa73E-kxl2jRlbtA05yqbST6bS3Ul8oaIVVvVmfpeh3GwkYOH0EMY6GjB-g62DJL2i_J-w3B6tUIC7MHCSMJdsm4C-YbziQ3JRXb2k0bYU_wg8iDRsnckMj0i9xv84vEQPE_1Ps40-I79EWwErZcGXm7URW-d0O3fXqvF-mn7-JyfxvCeSOJuYDmQc9ZTSLLTTdmaqqyrxvyD_gCoM1wx</recordid><startdate>20141003</startdate><enddate>20141003</enddate><creator>Wei, Shen-Hung</creator><creator>Lin, Chien-Cheng</creator><scope>7SR</scope><scope>7U5</scope><scope>8BQ</scope><scope>8FD</scope><scope>JG9</scope><scope>L7M</scope></search><sort><creationdate>20141003</creationdate><title>Formation of omega and Ti sub(2)Ni phases in a residual Ti-Ni-Ti multilayer between stainless steel and zirconia after bonding at 1173 K</title><author>Wei, Shen-Hung ; Lin, Chien-Cheng</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-proquest_miscellaneous_16293425463</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2014</creationdate><topic>Austenitic stainless steels</topic><topic>Foils</topic><topic>Heat resistant steels</topic><topic>Multilayers</topic><topic>Nickel</topic><topic>Precipitation</topic><topic>Stainless steels</topic><topic>Titanium</topic><topic>Zirconium dioxide</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Wei, Shen-Hung</creatorcontrib><creatorcontrib>Lin, Chien-Cheng</creatorcontrib><collection>Engineered Materials Abstracts</collection><collection>Solid State and Superconductivity Abstracts</collection><collection>METADEX</collection><collection>Technology Research Database</collection><collection>Materials Research Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Philosophical magazine letters</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Wei, Shen-Hung</au><au>Lin, Chien-Cheng</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Formation of omega and Ti sub(2)Ni phases in a residual Ti-Ni-Ti multilayer between stainless steel and zirconia after bonding at 1173 K</atitle><jtitle>Philosophical magazine letters</jtitle><date>2014-10-03</date><risdate>2014</risdate><volume>94</volume><issue>10</issue><spage>609</spage><epage>619</epage><pages>609-619</pages><issn>0950-0839</issn><eissn>1362-3036</eissn><abstract>Stainless steel (316L) and 8 mol pct Y sub(2)O sub(3)-stabilized zirconia (8Y-ZrO sub(2)) were bonded using a Ti-Ni-Ti multilayer at 1173 K (900 degree C) for 1 h. Cross-sectional transmission electron microscopy specimens were prepared by an innovative focused ion beam plus lift-out technique. In addition to acicular alpha -Ti, the dissolution of Fe, Cr, and Ni diffusing outwards from 316L into beta -Ti led to the precipitation of the omega ( omega ) phase with different variants in the residual Ti foil between 316L and Ni. The omega -phase was not found in the residual Ti foil between Ni and 8Y-ZrO sub(2), while Ti sub(2)Ni precipitates were precipitated in some alpha -Ti grains owing to the exclusion of Ni from the beta -Ti.</abstract><doi>10.1080/09500839.2014.951705</doi></addata></record>
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source	Taylor and Francis Science and Technology Collection
subjects	Austenitic stainless steels Foils Heat resistant steels Multilayers Nickel Precipitation Stainless steels Titanium Zirconium dioxide
title	Formation of omega and Ti sub(2)Ni phases in a residual Ti-Ni-Ti multilayer between stainless steel and zirconia after bonding at 1173 K
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