Isothermal section at 800°C of the ternary system Tm-Fe-Si
Identifieur interne : 001353 ( Pascal/Corpus ); précédent : 001352; suivant : 001354Isothermal section at 800°C of the ternary system Tm-Fe-Si
Auteurs : M. Muller ; H. Schmidt ; H. F. BraunSource :
- Journal of alloys and compounds [ 0925-8388 ] ; 1997.
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- Pascal (Inist)
English descriptors
- KwdEn :
Abstract
Copyright (c) 1997 Elsevier Science S.A. All rights reserved. The isothermal section at 800°C of the Tm-Fe-Si ternary phase diagram was investigated using X-ray diffractometry, metallographic analysis and EDX-microanalysis. We found eleven binary and at least nine ternary phases. For two ternary phases reported as Tm2Fe4Si9 with Y2Fe4Si9-type structure [1] and Tm3Fe2Si7 with Ho3Co2Si7-type structure [1] the composition could not be confirmed, but was found as Tm9±1Fe26±1Si65±3 and Tm21±1Fe18.5±1Si60.5±1. New ternary phases were found at compositions Tm30±1Fe12.8±1Si57.2±1, which could be indexed orthorhombic, Tm30±2Fe5±1Si65±3, Tm37±1Fe25±1Si38±1 and Tm40±1Fe19±1Si41±1. Two binary and four ternary phases are in equilibrium with the re-entrant superconducting compound Tm2Fe3Si5, which are FeSi, TmSi, TmFe2Si2, Tm21±1Fe18.5±1Si60.5±1, Tm9±1Fe26±1Si65±1 and Tm30±1Fe12.8±1Si57.2±1. The width of the homogeneity range of the Tm2Fe3Si5 phase was determined to 1.6±0.4 at.% at constant Tm concentration and to 0.5±0.15 at.% at constant Fe/Si-ratio.
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Format Inist (serveur)
NO : | PASCAL 97-0478580 Elsevier |
---|---|
ET : | Isothermal section at 800°C of the ternary system Tm-Fe-Si |
AU : | MULLER (M.); SCHMIDT (H.); BRAUN (H. F.) |
AF : | Physikalisches Institut, Universität Bayreuth/95440 Bayreuth/Allemagne (1 aut., 2 aut., 3 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Journal of alloys and compounds; ISSN 0925-8388; Suisse; Da. 1997; Vol. 257; No. 1-2; Pp. 205-210; Abs. anglais |
LA : | Anglais |
EA : | Copyright (c) 1997 Elsevier Science S.A. All rights reserved. The isothermal section at 800°C of the Tm-Fe-Si ternary phase diagram was investigated using X-ray diffractometry, metallographic analysis and EDX-microanalysis. We found eleven binary and at least nine ternary phases. For two ternary phases reported as Tm2Fe4Si9 with Y2Fe4Si9-type structure [1] and Tm3Fe2Si7 with Ho3Co2Si7-type structure [1] the composition could not be confirmed, but was found as Tm9±1Fe26±1Si65±3 and Tm21±1Fe18.5±1Si60.5±1. New ternary phases were found at compositions Tm30±1Fe12.8±1Si57.2±1, which could be indexed orthorhombic, Tm30±2Fe5±1Si65±3 , Tm37±1Fe25±1Si38±1 and Tm40±1Fe19±1Si41±1. Two binary and four ternary phases are in equilibrium with the re-entrant superconducting compound Tm2Fe3Si5, which are FeSi, TmSi, TmFe2Si2, Tm21±1Fe18.5±1Si60.5±1, Tm9±1Fe26±1Si65±1 and Tm30±1Fe12.8±1Si57.2±1. The width of the homogeneity range of the Tm2Fe3Si5 phase was determined to 1.6±0.4 at.% at constant Tm concentration and to 0.5±0.15 at.% at constant Fe/Si-ratio. |
CC : | 001B80A30B; 240 |
FD : | Equilibre phase; Diagramme phase; Section isotherme; Thulium; Fer; Silicium; XRD; Métallographie; Structure cristalline; Composé intermétallique; Etude expérimentale; Alliage ternaire; Groupe espace; Système Fe Si Tm; 8130B |
FG : | Métal transition; Lanthanide |
ED : | Phase equilibria; Phase diagrams; Isothermal section; Thulium; Iron; Silicon; XRD; Metallography; Crystal structure; Intermetallic compounds; Experimental study; Ternary alloys; Space groups |
EG : | Transition elements; Rare earths |
GD : | Isothermer Schnitt |
SD : | Sección isotérmica |
LO : | INIST-1151.354000069030830066 |
ID : | 97-0478580 |
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Pascal:97-0478580Le document en format XML
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<term>Isothermal section</term>
<term>Metallography</term>
<term>Phase diagrams</term>
<term>Phase equilibria</term>
<term>Silicon</term>
<term>Space groups</term>
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<front><div type="abstract" xml:lang="en">Copyright (c) 1997 Elsevier Science S.A. All rights reserved. The isothermal section at 800°C of the Tm-Fe-Si ternary phase diagram was investigated using X-ray diffractometry, metallographic analysis and EDX-microanalysis. We found eleven binary and at least nine ternary phases. For two ternary phases reported as Tm<sub>2</sub>
Fe<sub>4</sub>
Si<sub>9</sub>
with Y<sub>2</sub>
Fe<sub>4</sub>
Si<sub>9</sub>
-type structure [1] and Tm<sub>3</sub>
Fe<sub>2</sub>
Si<sub>7</sub>
with Ho<sub>3</sub>
Co<sub>2</sub>
Si<sub>7</sub>
-type structure [1] the composition could not be confirmed, but was found as Tm<sub>9±1</sub>
Fe<sub>26±1</sub>
Si<sub>65±3</sub>
and Tm<sub>21±1</sub>
Fe<sub>18.5±1</sub>
Si<sub>60.5±1</sub>
. New ternary phases were found at compositions Tm<sub>30±1</sub>
Fe<sub>12.8±1</sub>
Si<sub>57.2±1</sub>
, which could be indexed orthorhombic, Tm<sub>30±2</sub>
Fe<sub>5±1</sub>
Si<sub>65±3</sub>
, Tm<sub>37±1</sub>
Fe<sub>25±1</sub>
Si<sub>38±1</sub>
and Tm<sub>40±1</sub>
Fe<sub>19±1</sub>
Si<sub>41±1</sub>
. Two binary and four ternary phases are in equilibrium with the re-entrant superconducting compound Tm<sub>2</sub>
Fe<sub>3</sub>
Si<sub>5</sub>
, which are FeSi, TmSi, TmFe<sub>2</sub>
Si<sub>2</sub>
, Tm<sub>21±1</sub>
Fe<sub>18.5±1</sub>
Si<sub>60.5±1</sub>
, Tm<sub>9±1</sub>
Fe<sub>26±1</sub>
Si<sub>65±1</sub>
and Tm<sub>30±1</sub>
Fe<sub>12.8±1</sub>
Si<sub>57.2±1</sub>
. The width of the homogeneity range of the Tm<sub>2</sub>
Fe<sub>3</sub>
Si<sub>5</sub>
phase was determined to 1.6±0.4 at.% at constant Tm concentration and to 0.5±0.15 at.% at constant Fe/Si-ratio.</div>
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<fC01 i1="01" l="ENG"><s0>Copyright (c) 1997 Elsevier Science S.A. All rights reserved. The isothermal section at 800°C of the Tm-Fe-Si ternary phase diagram was investigated using X-ray diffractometry, metallographic analysis and EDX-microanalysis. We found eleven binary and at least nine ternary phases. For two ternary phases reported as Tm<sub>2</sub>
Fe<sub>4</sub>
Si<sub>9</sub>
with Y<sub>2</sub>
Fe<sub>4</sub>
Si<sub>9</sub>
-type structure [1] and Tm<sub>3</sub>
Fe<sub>2</sub>
Si<sub>7</sub>
with Ho<sub>3</sub>
Co<sub>2</sub>
Si<sub>7</sub>
-type structure [1] the composition could not be confirmed, but was found as Tm<sub>9±1</sub>
Fe<sub>26±1</sub>
Si<sub>65±3</sub>
and Tm<sub>21±1</sub>
Fe<sub>18.5±1</sub>
Si<sub>60.5±1</sub>
. New ternary phases were found at compositions Tm<sub>30±1</sub>
Fe<sub>12.8±1</sub>
Si<sub>57.2±1</sub>
, which could be indexed orthorhombic, Tm<sub>30±2</sub>
Fe<sub>5±1</sub>
Si<sub>65±3</sub>
, Tm<sub>37±1</sub>
Fe<sub>25±1</sub>
Si<sub>38±1</sub>
and Tm<sub>40±1</sub>
Fe<sub>19±1</sub>
Si<sub>41±1</sub>
. Two binary and four ternary phases are in equilibrium with the re-entrant superconducting compound Tm<sub>2</sub>
Fe<sub>3</sub>
Si<sub>5</sub>
, which are FeSi, TmSi, TmFe<sub>2</sub>
Si<sub>2</sub>
, Tm<sub>21±1</sub>
Fe<sub>18.5±1</sub>
Si<sub>60.5±1</sub>
, Tm<sub>9±1</sub>
Fe<sub>26±1</sub>
Si<sub>65±1</sub>
and Tm<sub>30±1</sub>
Fe<sub>12.8±1</sub>
Si<sub>57.2±1</sub>
. The width of the homogeneity range of the Tm<sub>2</sub>
Fe<sub>3</sub>
Si<sub>5</sub>
phase was determined to 1.6±0.4 at.% at constant Tm concentration and to 0.5±0.15 at.% at constant Fe/Si-ratio.</s0>
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<server><NO>PASCAL 97-0478580 Elsevier</NO>
<ET>Isothermal section at 800°C of the ternary system Tm-Fe-Si</ET>
<AU>MULLER (M.); SCHMIDT (H.); BRAUN (H. F.)</AU>
<AF>Physikalisches Institut, Universität Bayreuth/95440 Bayreuth/Allemagne (1 aut., 2 aut., 3 aut.)</AF>
<DT>Publication en série; Niveau analytique</DT>
<SO>Journal of alloys and compounds; ISSN 0925-8388; Suisse; Da. 1997; Vol. 257; No. 1-2; Pp. 205-210; Abs. anglais</SO>
<LA>Anglais</LA>
<EA>Copyright (c) 1997 Elsevier Science S.A. All rights reserved. The isothermal section at 800°C of the Tm-Fe-Si ternary phase diagram was investigated using X-ray diffractometry, metallographic analysis and EDX-microanalysis. We found eleven binary and at least nine ternary phases. For two ternary phases reported as Tm<sub>2</sub>
Fe<sub>4</sub>
Si<sub>9</sub>
with Y<sub>2</sub>
Fe<sub>4</sub>
Si<sub>9</sub>
-type structure [1] and Tm<sub>3</sub>
Fe<sub>2</sub>
Si<sub>7</sub>
with Ho<sub>3</sub>
Co<sub>2</sub>
Si<sub>7</sub>
-type structure [1] the composition could not be confirmed, but was found as Tm<sub>9±1</sub>
Fe<sub>26±1</sub>
Si<sub>65±3</sub>
and Tm<sub>21±1</sub>
Fe<sub>18.5±1</sub>
Si<sub>60.5±1</sub>
. New ternary phases were found at compositions Tm<sub>30±1</sub>
Fe<sub>12.8±1</sub>
Si<sub>57.2±1</sub>
, which could be indexed orthorhombic, Tm<sub>30±2</sub>
Fe<sub>5±1</sub>
Si<sub>65±3</sub>
, Tm<sub>37±1</sub>
Fe<sub>25±1</sub>
Si<sub>38±1</sub>
and Tm<sub>40±1</sub>
Fe<sub>19±1</sub>
Si<sub>41±1</sub>
. Two binary and four ternary phases are in equilibrium with the re-entrant superconducting compound Tm<sub>2</sub>
Fe<sub>3</sub>
Si<sub>5</sub>
, which are FeSi, TmSi, TmFe<sub>2</sub>
Si<sub>2</sub>
, Tm<sub>21±1</sub>
Fe<sub>18.5±1</sub>
Si<sub>60.5±1</sub>
, Tm<sub>9±1</sub>
Fe<sub>26±1</sub>
Si<sub>65±1</sub>
and Tm<sub>30±1</sub>
Fe<sub>12.8±1</sub>
Si<sub>57.2±1</sub>
. The width of the homogeneity range of the Tm<sub>2</sub>
Fe<sub>3</sub>
Si<sub>5</sub>
phase was determined to 1.6±0.4 at.% at constant Tm concentration and to 0.5±0.15 at.% at constant Fe/Si-ratio.</EA>
<CC>001B80A30B; 240</CC>
<FD>Equilibre phase; Diagramme phase; Section isotherme; Thulium; Fer; Silicium; XRD; Métallographie; Structure cristalline; Composé intermétallique; Etude expérimentale; Alliage ternaire; Groupe espace; Système Fe Si Tm; 8130B</FD>
<FG>Métal transition; Lanthanide</FG>
<ED>Phase equilibria; Phase diagrams; Isothermal section; Thulium; Iron; Silicon; XRD; Metallography; Crystal structure; Intermetallic compounds; Experimental study; Ternary alloys; Space groups</ED>
<EG>Transition elements; Rare earths</EG>
<GD>Isothermer Schnitt</GD>
<SD>Sección isotérmica</SD>
<LO>INIST-1151.354000069030830066</LO>
<ID>97-0478580</ID>
</server>
</inist>
</record>
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