The vapor pressure of indium, silver, gallium, copper, tin, and gold between 0.1 and 3.0 bar
Identifieur interne : 000566 ( Main/Exploration ); précédent : 000565; suivant : 000567The vapor pressure of indium, silver, gallium, copper, tin, and gold between 0.1 and 3.0 bar
Auteurs : RBID : ISTEX:10765_1987_Article_BF00567103.pdfDescripteurs français
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Abstract
The vapor pressure of several liquid metals was measured using a method based on the gas-controlled heat pipe. Small samples of the test material were placed in a tungsten tube and heated to temperatures above 2900 K. The vapor pressure was measured using a gas-buffered pressure transducer and the vapor temperature was inferred from the tube surface temperature, which was measured with an optical pyrometer. Most of the tests were terminated by the failure of the containment tube. The measured pressures agree well with those calculated by thermodynamic methods from data at lower temperatures.
DOI: 10.1007/BF00567103
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Busse</name><affiliation wicri:level="1"><mods:affiliation>Commission of the European Communities, Joint Research Centre, Ispra Establishment, 21020, Ispra, Varese, Italy</mods:affiliation><country xml:lang="fr">Italie</country><wicri:regionArea>Commission of the European Communities, Joint Research Centre, Ispra Establishment, 21020, Ispra, Varese</wicri:regionArea><wicri:noRegion>Varese</wicri:noRegion></affiliation></author><author><name>R. I. Loehrke</name><affiliation wicri:level="1"><mods:affiliation>Mechanical Engineering Department, Colorado State University, 80523, Fort Collins, Colorado, USA</mods:affiliation><country xml:lang="fr">États-Unis</country><wicri:regionArea>Mechanical Engineering Department, Colorado State University, 80523, Fort Collins, Colorado</wicri:regionArea><wicri:noRegion>Colorado</wicri:noRegion></affiliation></author></titleStmt><publicationStmt><idno type="RBID">ISTEX:10765_1987_Article_BF00567103.pdf</idno><date when="1987">1987</date><idno type="doi">10.1007/BF00567103</idno><idno type="wicri:Area/Main/Corpus">000119</idno><idno type="wicri:Area/Main/Curation">000119</idno><idno type="wicri:Area/Main/Exploration">000566</idno></publicationStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Copper</term><term>Gallium</term><term>Gold</term><term>Heat pipe</term><term>High temperature</term><term>Indium</term><term>Liquid metals</term><term>Silver</term><term>Tin</term><term>Vapor pressure</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Cuivre</term><term>Or</term><term>Argent</term><term>étain</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="eng">The vapor pressure of several liquid metals was measured using a method based on the gas-controlled heat pipe. Small samples of the test material were placed in a tungsten tube and heated to temperatures above 2900 K. The vapor pressure was measured using a gas-buffered pressure transducer and the vapor temperature was inferred from the tube surface temperature, which was measured with an optical pyrometer. Most of the tests were terminated by the failure of the containment tube. The measured pressures agree well with those calculated by thermodynamic methods from data at lower temperatures.</div></front></TEI><mods xsi:schemaLocation="http://www.loc.gov/mods/v3 file:///applis/istex/home/loadistex/home/etc/xsd/mods.xsd" version="3.4" istexId="14a4802cc55195d9c88585277d17620ccf1b3858"><titleInfo lang="eng"><title>The vapor pressure of indium, silver, gallium, copper, tin, and gold between 0.1 and 3.0 bar</title></titleInfo><name type="personal"><namePart type="given">F.</namePart><namePart type="family">Geiger</namePart><role><roleTerm type="text">author</roleTerm></role><affiliation>Commission of the European Communities, Joint Research Centre, Ispra Establishment, 21020, Ispra, Varese, Italy</affiliation></name><name type="personal"><namePart type="given">C. 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I.</namePart><namePart type="family">Loehrke</namePart><role><roleTerm type="text">author</roleTerm></role><affiliation>Mechanical Engineering Department, Colorado State University, 80523, Fort Collins, Colorado, USA</affiliation></name><typeOfResource>text</typeOfResource><genre>Original Paper</genre><originInfo><publisher>Kluwer Academic Publishers-Plenum Publishers, New York</publisher><dateCreated encoding="w3cdtf">1986-10-03</dateCreated><dateValid encoding="w3cdtf">2004-10-16</dateValid><copyrightDate encoding="w3cdtf">1987</copyrightDate></originInfo><language><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><internetMediaType>text/html</internetMediaType></physicalDescription><abstract lang="eng">The vapor pressure of several liquid metals was measured using a method based on the gas-controlled heat pipe. Small samples of the test material were placed in a tungsten tube and heated to temperatures above 2900 K. The vapor pressure was measured using a gas-buffered pressure transducer and the vapor temperature was inferred from the tube surface temperature, which was measured with an optical pyrometer. Most of the tests were terminated by the failure of the containment tube. The measured pressures agree well with those calculated by thermodynamic methods from data at lower temperatures.</abstract><subject lang="eng"><genre>Key words</genre><topic>copper</topic><topic>gallium</topic><topic>gold</topic><topic>heat pipe</topic><topic>high temperature</topic><topic>indium</topic><topic>liquid metals</topic><topic>silver</topic><topic>tin</topic><topic>vapor pressure</topic></subject><relatedItem type="series"><titleInfo type="abbreviated"><title>Int J Thermophys</title></titleInfo><titleInfo><title>International Journal of Thermophysics</title><subTitle>Journal of Thermophysical Properties and Thermophysics and Its Applications</subTitle><partNumber>Year: 1987</partNumber><partNumber>Volume: 8</partNumber><partNumber>Number: 4</partNumber></titleInfo><genre>Archive Journal</genre><originInfo><dateIssued encoding="w3cdtf">1987-07-01</dateIssued><copyrightDate encoding="w3cdtf">1987</copyrightDate></originInfo><subject usage="primary"><topic>Physics</topic><topic>Physical Chemistry</topic><topic>Industrial Chemistry/Chemical Engineering</topic><topic>Mechanics</topic><topic>Condensed Matter</topic></subject><identifier type="issn">0195-928X</identifier><identifier type="issn">Electronic: 1572-9567</identifier><identifier type="matrixNumber">10765</identifier><identifier type="local">IssueArticleCount: 7</identifier><recordInfo><recordOrigin>Plenum Publishing Corporation, 1987</recordOrigin></recordInfo></relatedItem><identifier type="doi">10.1007/BF00567103</identifier><identifier type="matrixNumber">Art3</identifier><identifier type="local">BF00567103</identifier><accessCondition type="use and reproduction">MetadataGrant: OpenAccess</accessCondition><accessCondition type="use and reproduction">AbstractGrant: OpenAccess</accessCondition><accessCondition type="restriction on access">BodyPDFGrant: Restricted</accessCondition><accessCondition type="restriction on access">BodyHTMLGrant: Restricted</accessCondition><accessCondition type="restriction on access">BibliographyGrant: Restricted</accessCondition><accessCondition type="restriction on access">ESMGrant: Restricted</accessCondition><part><extent unit="pages"><start>425</start><end>436</end></extent></part><recordInfo><recordOrigin>Plenum Publishing Corporation, 1987</recordOrigin><recordIdentifier>10765_1987_Article_BF00567103.pdf</recordIdentifier></recordInfo></mods></record>Pour manipuler ce document sous Unix (Dilib)
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