{"copyright":{"thirdPartyPermissionsProduced":false,"disclosedToPublic":false,"containsIndication":false,"publisherPermissionOrRightsToDistribute":false,"belongsToUsGov":false,"determinationType":"GOV_PUBLIC_USE_PERMITTED","thirdPartyContentCondition":"NOT_SET","belongsToContractor":false,"disclosedInvention":false,"submissionId":19860000620,"containsThirdPartyMaterial":false,"belongsToPublisher":false,"id":"d1a6c0f09f4e4928b33e2d243cbbe367","belongsToAuthors":false},"subjectCategories":["Astronautics (General)"],"exportControl":{"isExportControl":"NO","submissionId":19860000620,"ear":"NO","id":"bba38cc134094fbcb39f7b377924a6a3","itar":"NO"},"distributionDate":"2014-10-06T05:55:12.6130000+00:00","title":"Study of the Reactive-element Effect in Oxidation of Fe-cr Alloys Using Transverse Section Analytical Electron Microscopy","stiType":"OTHER","distribution":"PUBLIC","submittedDate":"2013-08-12T22:27:00.0000000+00:00","authorAffiliations":[{"sequence":0,"submissionId":19860000620,"meta":{"author":{"name":"King, W. E."},"organization":{"name":"Argonne National Lab.","location":"United States"}},"id":"04027d4746e24a4db21561279b85a2b0"},{"sequence":1,"submissionId":19860000620,"meta":{"author":{"name":"Ethridge, E. C."},"organization":{"name":"NASA Marshall Space Flight Center","location":"Huntsville, AL, United States"}},"id":"3b3d294ee81446329e369096d86da8a8"}],"stiTypeDetails":"Other","technicalReviewType":"TECHNICAL_REVIEW_TYPE_NONE","modified":"2025-08-31T18:39:21.7150190+00:00","id":19860000620,"legacyMeta":{"__type":"LegacyMetaIndex, StrivesApi.ServiceModel","accessionNumber":"86N10087"},"created":"2013-08-12T22:27:00.0000000+00:00","center":{"code":"CDMS","name":"Legacy CDMS","id":"092d6e0881874968859b972d39a888dc"},"onlyAbstract":false,"sensitiveInformation":2,"abstract":"The role of trace additions of reactive elements like Y, Ce, Th, or Hf to Cr bearing alloys was studied by applying a new developed technique of transverse section analytical electron microscopy. This reactive-element effect improves the high temperature oxidation resistance of alloys by strongly reducing the high temperature oxidation rate and enhancing the adhesion of the oxide scale, however, the mechanisms for this important effect remain largely unknown. It is indicated that the presence of yttrium affects the oxidation of Fe-Cr-Y alloys in at least two ways. The reactive element alters the growth mechanism of the oxide scale as evidenced by the marked influence of the reactive element on the oxide scale microstructure. The present results also suggest that reactive-element intermetallic compounds, which internally oxidize in the metal during oxidation, act as sinks for excess vacancies thus inhibiting vacancy condensation at the scale-metal interface and possibly enhancing scale adhesion.","isLessonsLearned":false,"disseminated":"METADATA_ONLY","publications":[{"submissionId":19860000620,"id":"127eb3915575466d947ed13f65c6c454","publicationName":"NASA, Washington Microgravity Sci. and Appl. Program Tasks","publicationDate":"1985-05-01T00:00:00.0000000+00:00"}],"status":"CURATED","related":[],"downloads":[],"downloadsAvailable":true,"index":"submissions-2026-06-04-04-53"}