A K38G superalloy nanocrystalline coating was produced by magnetron sputtering deposition and its transient oxides formation in the early stage of oxidation (from 5 to 1200 min) was characterized by SEM, XRD, TEM and Photo Stimulated Luminescence Spectroscopy (PSLS). During this early period of oxidation, a series phase transformation occurred and the metastable theta-Al2O3 finally transformed to stable alpha-Al2O3. The features of the transient theta-Al2O3 were detected by PSLS, XRD and TEM. The results indicate that transient alumina formation can not be avoided even with the nanocrystalline structure and the formation of these metastable alumina may contribute to the exclusive alpha-Al2O3 development on nanocrystalline materials. (C) 2004 Elsevier B.V. All rights reserved.
部门归属
chinese acad sci, met res inst, state key lab corros & protect met, shenyang 110016, peoples r china. max planck inst met res, d-70569 stuttgart, germany.;chen, gf (reprint author), cleveland state univ, dept chem & biomed engn, cleveland, oh 44115 usa;gfchen@yeah.net
G. F. Chen,M. Ruhle. Transient alumina transformation on a sputtered K38G nanocrystalline coating[J]. Surface & Coatings Technology,2005,191(2-3):263-266.
APA
G. F. Chen,&M. Ruhle.(2005).Transient alumina transformation on a sputtered K38G nanocrystalline coating.Surface & Coatings Technology,191(2-3),263-266.
MLA
G. F. Chen,et al."Transient alumina transformation on a sputtered K38G nanocrystalline coating".Surface & Coatings Technology 191.2-3(2005):263-266.
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