Thermal stability of the microstructure of an aged Nb-Zr-C alloy

Uz, Mehmet E.; Titran, R. H.

doi:10.1063/1.40030

Cited by 8 publications

(5 citation statements)

References 9 publications

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“…The conclusion from the STEM studies is that NbC may have resulted from residues of sheet processing, electropolishing and annealing, with distinct precipitates appearing in regions of Nb with added tensile strain. Such observations are consistent with studies of NbZrC alloys with low concentrations of Zr (~1%) and C (~0.4%), which show that with annealing only, NbC precipitates form throughout the Nb matrix that are very stable [25]. However, the results here show that the NbC near the surface is coherent with the host Nb.…”

Section: Identification Of Niobium Carbide Inclusions By Tem and Eelssupporting

confidence: 91%

“…Such observations are consistent with studies of NbZrC alloys with low concentrations of Zr (~1%) and C (~0.4%), which show that with annealing only, NbC precipitates form throughout the Nb matrix that are very stable [25]. However, the results here show that the NbC near the surface is coherent with the host Nb.…”

Section: Identification Of Niobium Carbide Inclusions By Tem and supporting

confidence: 68%

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Giant two-phonon Raman scattering from nanoscale NbC precipitates in Nb

et al. 2015

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High purity niobium (Nb), subjected to the processing methods used in the fabrication of superconducting RF cavities, displays micron-sized surface patches containing excess carbon.High-resolution transmission electron microscopy and electron energy-loss spectroscopy measurements are presented which reveal the presence of nanoscale NbC coherent precipitates in such regions. Raman backscatter spectroscopy on similar surface regions exhibit spectra consistent with the literature results on bulk NbC but with significantly enhanced two-phonon scattering. The unprecedented strength and sharpness of the two-phonon signal has prompted a theoretical analysis, using density functional theory (DFT), of phonon modes in NbC for two different interface models of the coherent precipitate. One model leads to overall compressive strain and a comparison to ab-initio calculations of phonon dispersion curves under uniform compression of the NbC shows that the measured two-phonon peaks are linked directly to phonon anomalies arising from strong electron-phonon interaction. Another model of the extended interface between Nb and NbC, studied by DFT, gives insight into the frequency shifts of the acoustic and optical mode density of states measured by first order Raman. The exact origin of the stronger two-phonon response is not known at present but it suggests the possibility of enhanced electron-phonon coupling in transition metal carbides under strain found either in the bulk NbC inclusions or at their interfaces with Nb metal. Preliminary tunneling studies using a point contact method show some energy gaps larger than expected for bulk NbC.

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Section: Identification Of Niobium Carbide Inclusions By Tem and Eelssupporting

confidence: 91%

Section: Identification Of Niobium Carbide Inclusions By Tem and supporting

confidence: 68%

Giant two-phonon Raman scattering from nanoscale NbC precipitates in Nb

et al. 2015

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“…As processing Ijecame more complex or the heat treatment temperature increased, the microstructure showed fewer of the coarser particles and more of (he finer ones, and the composidon analysis showed an increase in Zr/Nb rado of (he precipi(a(es. This is also coiisis(ent wKh the results of the study on a Nb-l%Zr-0.06%C alloy (Uz and Titran 1991) in whicli (he micros(ruc(ure of a sample (ransformed from one wKh predominandy NbjC (o one wKli (Zr,Nb)C precipi(tt(es in the earlier stages of high-temperature exposure with or without applied load as mentioned earlier.…”

Section: Characterization Of Precipitatessupporting

confidence: 74%

“…Based on the results of the earlier study (Uz and Titran 1991) on a Nb-l%Zr-0.06%C alloy which showed excellent creep resistance and microstriictiiral stability at 1350 K, and an examinadon of (he micros(ruc(ure of the Nb-l%Zr-0.1%C alloy in this study, it would appear that the majority of the samples with die heattreated conditions from the alloy containing 0.1%C should have as good, if not be((er, higli-(enipera(Hre stability and creep resistance than those from the lower-carbon alloy even under more severe service conditions.…”

Section: Resultsmentioning

confidence: 99%

“…The primary candidates to provide such margins are the carbide-strengthened Nb-alloys, in particular, the so-called PWC-11 developed in the 1960s (DclGrosso et al 1967) with a nominal composition of Nb-l%Zr-0.1%C. An earlier study (Uz and Titran 1991) showed that a Nb-l%Zr-0.06%C alloy has excellcii( microsirucdiral s(al)il! (y a( (empera(ures of in(ciest with or without applied load.…”

Section: Introductionmentioning

confidence: 99%

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Processing and microstructure of Nb-1% Zr-0.1% C alloy sheet

Titran

1993

AIP Conference Proceedings

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A systematic study was carried out to evaluate the effects of processing on (he microstruclure of a Nblwt.%Zr-0.1wt.%C alloy sheet. The samples were fabricated Ijy cold rolling different sheet bars that were single-, double-or triple-extruded at 1900 K. Heal treatment consisted of one-or two-step niiiieaiiiig of different samples at temperatures ranging from 1350 K to 1850 K. The assessment of (he effects of processing on microslruc(ure involved characterization of the precipitates including the type, crystal striiclure, chemistry nnd distribution within the material as well as an examination of the grain structure. A combination of various analytical and metallographic techniques were used on both (he sheet samples and (he residue extracted from them. The results show that (he reladvely coarse ordiorhombic NIJJC carbides in (he as-roiled samples transformed to rather fine cubic moiiocnri)ides of Nb and Zr with varying Zr/Nb rndos upon subsequeii(hea((readiient. The relative amount of (he cubic carbides and (he Zr/Nb ratio increased wi(h increasing number of extrusions prior to cold rolling. Furlhermore, (he size and (he aspec(ra(io of (he grains appear (o be sdoiig functions of the processing Iiistory of tlie material. These and odier resiiKs ob(aiiied will be preseii(ed wi(h (he emphasis on a possible relationship between processing and microstructure. 14. SUBJECT TERMS 17. SECURITY CLASSIFICATION OF REPORT Unclassified

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