List of 84 Solutions and 477 Compounds in FToxid


List of 84 Solutions

1. FToxid-SLAG
Slag-liq oxide Al,As,B,Ba,Ca,Co,Cr,Cu,Fe,Ge,K,Mg,Mn,Na,Ni,P,Pb,Si,Sn,Ti,Zn,Zr+
98 dilute S (Mis.gap at high SiO2, use [I] option).

2. FToxid-OXFL
Liq-Oxyfluoride (Ca,Mg,Na,Al,Si//O,F)
8 (Mis.gap at high SiO2 and fluoride content, use [I] option).

3. FToxid-SPIN
Spinel (Cubic) Al-Co-Cr-Fe-Mg-Mn-Ni-Zn-O: replaces SpMg, FeSP and FZSP. Possible
12 mis. gap in Al,Fe(3),Cr(3)-rich spinels (use I-option). Never use FTOxid-SPIN?.

4. FToxid-MeO_
Monoxide Rocksalt-str. Fe(2),Ca,Ba,Mg,Ni,Co,Mn(2);dilute Zn,Al,Cr,Fe(3),Mn(3),
1 Cu,Zr,Na. Mis. gap if CaO or BaO is present (use I option). Replaces MONO.

5. FToxid-cPyr
Clinopyroxene (Ca,Mg,Fe,Ni,Zn,Mn,Na)[Mg,Fe,Fe3+,Al,Ni,Zn,Mn]{Al,Fe3+,Si}SiO6
2 Possible mis. gap when Ca is present (use I option). Never use FTOxid-cPyr?

6. FToxid-oPyr
Orthopyroxene (Ca,Mg,Fe)[Mg,Fe,Fe3+,Al]{Al,Fe3+,Si}SiO6
2 Possible miscibility gap when Ca is present (use I option).

7. FToxid-pPyr
Protopyroxene (Ca,Mg,Fe,Ni,Zn)[Mg,Fe,Fe3+,Al,Ni,Zn]{Al,Fe3+,Si}SiO6
2 Possible mis. gap when Ca is present (use I option). Never use FTOxid-pPyr?

8. FToxid-LcPy
LowClinopyroxene {Ca,Mg}1{Mg}1(Si)2(O)6
Possible miscibility gap (use I option).

9. FToxid-WOLL
Wollastonite, CaSiO3; dilute MgSiO3, FeSiO3, MnSiO3, BaSiO3

10. FToxid-bC2S
a'(Ca,Ba)2SiO4 (alpha-prime (Ca,Ba)2SiO4); dilute Mg,Fe,Mn,Pb,Zn,B.
CaF2 solubility is fictive to reproduce liquidus of C2S in the CaO-SiO2-CaF2 system

11. FToxid-aC2S
a-Ca2SiO4 (alpha-Ca2SiO4); dilute Fe,Mg,Mn,B,Ba.

12. FToxid-Mel_
Melilite (Ca,Ba,Pb,Na)2[Zn,Mg,Ni,Fe2+,Fe3+,Al,B]{Fe3+,Al,B,Si}2O7
2 Never use Mel_?

13. FToxid-Oliv
Olivine [Ca,Mg,Fe,Mn,Co,Zn,Ni,Cr]1[Ca,Mg,Fe,Mn,Co,Zn,Ni,Cr]1[Si]1[O]4. Possible
2 mis. gap if Ca is present (use I option). Never use FTOxid-Oliv?.

14. FToxid-Cord
Cordierite Al4(Mg,Fe)2Si5O18

15. FToxid-Mull
Mullite [Al,Fe]2[Al,Si,B,Fe][O,Va]5, accounts for non-stoichiometry.
2 Replaces MULL and MulF. Use [I] option.

16. FToxid-CAFS
Ca2(Al,Fe)8SiO16 X-phase: (CaO)2[(Al,Fe)2O3]4SiO2

17. FToxid-CAF6
Ca(Al,Fe)12O19 CaAl12O19; dilute CaFe12O19

18. FToxid-CAF3
Ca(Al,Fe)6O10 T-phase (pure end-members are not stable)

19. FToxid-CAF2
Ca(Al,Fe)4O7 CaAl4O7; dilute CaFe4O7

20. FToxid-CAF1
Ca(Al,Fe)2O4 Possible miscibility gap (use [I] option).

21. FToxid-C2AF
Ca2(Al,Fe)2O5 Ca2Fe2O5; dilute Ca2Al2O5

22. FToxid-C3AF
Ca3(Al,Fe)2O6 Ca3Al2O6; dilute Ca3Fe2O6

23. FToxid-CORU
M2O3(Corundum) Al2O3-Cr2O3-Fe2O3 solid solution; Dilute Mn2O3 and Ti2O3
Possible miscibility gap (use I option).

24. FToxid-GARN
Garnets Ca3(Cr,Al)2Si3O12

25. FToxid-CaSp
CaSpinel Ca(Cr,Fe)2O4

26. FToxid-ZNIT
Zincite ZnO; dilute CoO, FeO, Fe2O3, MgO, MnO, NiO.
Phase must be rich in ZnO, otherwise invalid.

27. FToxid-WILL
Willemite (Zn,Fe2+,Mg)[Zn,Fe2+,Mg]SiO4, Zn2SiO4-rich only.
Replaces solutions WILL and WILF.

28. FToxid-PbO_
PbO-ZnO solid solution (formerly PbO). PbO; dilute ZnO.

29. FToxid-PCSi
Pb3M2Si3O11 solid solution: Pb3(Pb,Ca)2Si3O11

30. FToxid-Carn
Carnegieite Non-stoichiometric high-T NaAlSiO4, dissolving excess SiO2, K, Fe and Ca

31. FToxid-Neph
Nepheline Non-stoichiometric low-T NaAlSiO4-KAlSiO4, dissolving excess SiO2, Ca and Fe
Miscibility gap below 1000C (use I-option)

32. FToxid-NASh
(Na)(Al,Fe)O2-HT Non-stoichiometric high-T (Na,K)(Al,Fe)O2 with excess SiO2

33. FToxid-NASl
(Na)(Al,Fe)O2-LT Non-stoichiometric low-T (Na)(Al,Fe)O2 with excess SiO2
Miscibilty gap between NaAlO2 and NaFeO2 below 500 C

34. FToxid-NCSO
Combeite Na2Ca2Si3O9 solid solution (Na2,Ca)Na2(Ca,Na2)3CaSi6O18

35. FToxid-NCA2
Na2CaAl4O8 solid solution Na2(Na2,Ca)Al4O8

36. FToxid-C3A1
(Ca,Na2)Ca8Al6O18 solid solution, Ca3Al2O6-rich

37. FToxid-Feld
Feldspar NaAlSi3O8-NaFeSi3O8-KAlSi3O8-CaAl2Si2O8-BaAl2Si2O8
Possible miscibility gap (use I-option)

38. FToxid-Qrtz
Quartz solid solution SiO2-GeO2.

39. FToxid-TiO2
Rutile TiO2; dilute Ti2O3, ZrO2.
Valid only when TiO2-rich

40. FToxid-ILME
Ilmenite solid solution: FeTiO3-Ti2O3-MgTiO3-MnTiO3, dilute Al2O3.
Possible miscibility gap if MnO present (use I option). Never use FTOxid-ILME?.

41. FToxid-PSEU
Pseudobrookite solid solution: FeTi2O5-Ti3O5-MgTi2O5-MnTi2O5

42. FToxid-TiSp
Titania_Spinel (Mg,Fe,Mn)(Mg,Fe,Mn,Ti3+,Ti4+,Al3+)2O4
Valid above 1050 K and only when Ti is a major constituent. Dilute FeTi2O4.

43. FToxid-CaTi
Ca3Ti2O7-Ca3Ti2O6 solid solution

44. FToxid-PERO
Perovskite Ca2Ti2O6-Ca2Ti2O5 solid solution

45. FToxid-ZrOc
ZrO2-cubic solution, valid only when ZrO2-rich.
ZrO2; dilute Al2O3, CaO, FeO, MgO, MnO, TiO2

46. FToxid-ZrOt
ZrO2-tetragonal solution, valid only when ZrO2-rich
ZrO2; dilute Al2O3, CaO, FeO, MgO, MnO, TiO2

47. FToxid-ZrOm
ZrO2-monoclinic solution, valid only when ZrO2-rich
ZrO2; dilute CaO, MgO, MnO

48. FToxid-TSpi
Tetragonal-Spinel (Low-temperature Mn3O4 dissolving Fe and Cr).
2 Stable below 1445K.

49. FToxid-Bixb
Mn2O3(Bixbyite) cubic Mn2O3 dilute in Fe2O3, Cr2O3 and Al2O3.

50. FToxid-Brau
Mn7SiO12 Braunite (Non-stoichiometric Mn7SiO12 with excess Mn2O3)

51. FToxid-Rhod
Rhodonite MnSiO3; dilute CaSiO3, CoSiO3, FeSiO3 and MgSiO3
Replaces FTOxid-MnPy.

52. FToxid-AlSp
Al-spinel (Fe,Mg,Mn)Al2O4-Al2O3
(Do not select SPIN, AlSp and TiSp.)

53. FToxid-ReAl
Re2O3+Al2O3_liquid (Re = rare earths) where Re = La, Ce, Pr, Nd, Pm, Sm,
3 Eu,Gd,Tb,Dy,Ho,Er,Tm,Yb,Lu and Al (Do not use simultaneously with SLAG or SLUG)

54. FToxid-M3Si
Ba3SiO5 , dilute Ca3SiO5

55. FToxid-Merw
Merwinite (Ca,Ba)3MgSi2O8

56. FToxid-C2BM
Ca2BaMgSi2O8 , [Ca,Ba]2[Ba,Ca]MgSi2O8

57. FToxid-BCSO
Ba2Ca(Ba,Ca)Si2O8 known as T-phase

58. FToxid-PsWo
Pseudo-Wollastonite CaSiO3, dilute BaSiO3

59. FToxid-BaSi
BaSiO3 solid solution, dilute CaSiO3

60. FToxid-Wals
Walstromite , nonstoichiometric BaCa2Si3O9
[Ca,Ba][Ba,Ca]CaSi3O9

61. FToxid-Ba8A
Ba8Al2O11 , dilute Ca8Al2O11

62. FToxid-Me4A
Ba4Al2O7 , dilute Ca4Al2O7

63. FToxid-Me3A
(Ca,Ba)3Al2O6 cubic phase

64. FToxid-MeAl
High-T-BaAl2O4 , dilute CaAl2O4

65. FToxid-CaAl
CaAl2O4 , dilute BaAl2O4

66. FToxid-BaAl
Low-T-BaAl2O4 , dilute CaAl2O4

67. FToxid-MeA6
(Ca,Ba)Al12O19 solid solution with magnetoplumbite structure

68. FToxid-bAlu
Beta-alumina solid solution

69. FToxid-BaB2
BaB2O4 , dilute CaB2O4

70. FToxid-MeB2
CaB2O4 , dilute BaB2O4

71. FToxid-BaB8
BaB8O13 , dilute CaB8O13

72. FToxid-KASH
KAlSiO4-HT Non-stoichiometric high-T Kalsilite, KAlSiO4, with excess SiO2, Na and Ca

73. FToxid-KA_H
KAlO2-HT Non-stoichiometric high-T KAlO2 with excess KAlSiO4

74. FToxid-KA_L
KAlO2-LT Non-stoichiometric low-T KAlO2 with excess KAlSiO4

75. FToxid-C2SP
a-C2S-C3P solid solution: complete solid solution at high temperature

76. FToxid-C3Pr
alpha'-Ca3P2O8 : alpha-prime high-T solid solution (Ca,Mg)3P2O8

77. FToxid-C3Pa
alpha-Ca3P2O8 : medium-T solid solution (Ca,Mg)3P2O8

78. FToxid-C3Pb
beta-Ca3P2O8 : low-T solid solution (Ca,Mg)3P2O8

79. FToxid-M3Pa
Mg3P2O8 : Mg3P2O8-rich solid solution (Mg,Ca)3P2O8

80. FToxid-CMPc
(Ca,Mg)3Mg3P4O16 : Ca3Mg3P4O16-based solid solution in Ca3P2O8-Mg3P2O8 section

81. FToxid-M2Pa
Mg2P2O7-HT : high-T Mg2P2O7-rich solid solution (Mg,Ca)2P2O7

82. FToxid-CaFh
CaF2-HT : high-T CaF2 containing small amount of CaO

83. FToxid-CaFl
CaF2-LT : low-T CaF2 containing small amount of CaO

84. FToxid-NAF6
beta''-Al2O3 (Na2[Al,Fe]12O19)


List of 477 Compounds

Al11O18CesAl11O18NdsAl11O18Pms
Al11O18PrsAl2Ce4O9sAl2Er4O9s
Al2Eu4O9sAl2Fe2O6sAl2Gd4O9s
Al2Ho4O9sAl2La4O9sAl2Lu4O9s
Al2Nd4O9sAl2O3s1-s4,l(Al2O3)2(B2O3)s
(Al2O3)9(B2O3)2sAl2Pm4O9sAl2Pr4O9s
Al2Si2O7sAl2Sm4O9sAl2TiO5s
Al22Mg39Zr14O100sAl4TiO8sAl5Ce3O12s
Al5Er3O12sAl5Eu3O12sAl5Gd3O12s
Al5La3O12sAl5Lu3O12sAl5Nd3O12s
Al5Pm3O12sAl5Pr3O12sAl5Sm3O12s
Al5Yb3O12sAl7La33O60sAlCeO3s
AlDyO3sAlErO3sAlEuO3s
AlF3s1,s2,lAlGdO3sAlLaO3s
AlLuO3sAlNdO3sAlP3O9s
AlPmO3sAlPO4s1-s4AlPrO3s
AlSmO3sAlTbO3sAlTmO3s
AlYbO3sB2O3s,lBa10Al2O13s
Ba11Al100O161sBa2Al2B8O17sBa2B10O17s
Ba2B2O5sBa2Ca4Si3O12sBa2Ca5B10O22s
Ba2Ca6Si4O16sBa2CaB2O6sBa2CaB6O12s
Ba2MgSi2O7sBa2P2O7s1,s2Ba2Si3O8s
Ba2SiO4sBa3Al2O6sBa3Al4B4O15s
Ba3Al44O69sBa3B2O6sBa3B6Si2O16s
Ba3CaAl2O7sBa3MgSi2O8sBa3P2O8s1,s2
Ba3Si5O13sBa3SiO5sBa4Al2O7s
Ba4B2O7sBa4P2O9sBa5Al2O8s
Ba5Al4B12O29sBa5Si8O21sBa7Al2O10s
Ba8Al2O11sBaAl10MgO17sBaAl2B2O7s
BaAl2B4O10sBaAl2O4s1,s2BaAl2Si2O8s1,s2
BaAl2SiO6sBaB2O4sBaB4O7s
BaB8O13sBaCa2Al8O15sBaMg2Si2O7s
BaMg3Al14O25sBaMgSi3O8sBaMgSiO4s
BaOs,lBaP2O6sBaP4O11s
BaSi2O5sBaSiO3sBaSrSi3O8s
Ca10Si3F2O15sCa11B2Si4O22s1,s2Ca12Al14F2O32s
Ca13Al12Zr2O35sCa2Al2SiO7sCa2AlF7s
Ca2B2O5s1,s2Ca2B2SiO7s(Ca2Cr3)Cr10O20s
Ca2Fe2O5sCa2FeSi2O7sCa2Mg2Al28O46s
Ca2MgSi2O7sCa2Mn3O8sCa2MnO4s
Ca2P2O7s1-s3Ca2P6O17sCa2SiO4s1-s3
Ca2Ti2O5s1,s2Ca2ZnSi2O7sCa2ZrSi4O12s
Ca3Al2O6sCa3Al2Si3O12sCa3B2O6s
Ca3Cr2Si3O12sCa3Fe2Si3O12sCa3Mg3(PO4)4s
Ca3MgAl4O10sCa3MgSi2O8sCa3Mn2O7s
Ca3P2O8s1-s3Ca3Si2O7sCa3SiO5s
Ca3Ti2O6sCa3Ti2O7sCa3ZrSi2O9s
Ca4Al6F2O12sCa4Mg2P6O21sCa4Mn3O10s
Ca4P2O9s1,s2Ca4P6O19sCa4Si2F2O7s
Ca5P2SiO12sCa5Si2F2O8sCa5Ti4O13s
Ca6Zr19O44sCa7P2Si2O16sCaAl12O19s
CaAl2B2O7sCaAl2O4sCaAl2Si2O8s1,s2
CaAl2SiO6sCaAl4O7sCaAlF5s1,s2
CaB2O4sCaB2Si2O8sCaB4O7s
(CaCr)Si4O10sCaCr2O4s1,s2CaF2s1,s2,l
CaFe2O4sCaFe4O7sCaFeSi2O6s
CaMg2Al16O27sCaMgSi2O6sCaMn2O4s
CaMn3O6sCaMn4O8sCaMn7O12s
CaMnO3sCaOs,l(CaO)2(Al2O3)(B2O3)s
(CaO)2(PbO2)sCaP2O6s1-s3CaP4O11s1,s2
CaSiO3s1,s2CaSiTiO5sCaTiO3s1,s2
CaZr4O9sCaZrO3s1,s2Ce2O3s,l
Co2SiO4sCoOs,lCr2O3s,l
CrOlCu2Al2O4sCu2Os,l
CuOsDy2O3s,lDy3Al5O12s
Dy4Al2O9sEr2O3s1,s2,lEu2O3s1,s2,l
Fe10P6O26sFe18P2O24sFe2Al4Si5O18s
Fe2O3s1-s3Fe2P2O7sFe2P2O8s
Fe2P6O18sFe2SiO4s1-s3Fe3Al2Si3O12s
Fe3P2O8s1,s2Fe4P2O10sFe4P6O21s
Fe6P2O14sFe7P6O24s(FeO)(TiO2)s
(FeO)2(TiO2)sFeP2O6sFeSiO3s1-s3
FeTi2O4sFeTi2O5sGd2O3s,l
GeO2s1,s2,lHo2O3s1,s2,lHo3Al5O12s
HoAlO3sK10Mg5Si11O32sK2AlF5s
K2Ca2Si2O7sK2Ca2Si9O21sK2Ca3Si6O16s
K2Ca6Si4O15sK2CaSiO4sK2Mg5Si12O30s
K2MgF4sK2MgSi3O8s1,s2K2MgSi5O12s
K2MgSiO4s1,s2K2Os,lK2Si2O5s1-s3
K2Si4O9s1,s2K2SiF6sK2SiO3s
K2Ti2O5sK2Ti3O7sK2Ti6O13s
K2TiO3sK3AlF6sK3SiF7s
K4Ca3Al10O20sK4CaSi3O9sK4CaSi6O15s
K4Mg2Si5O14sK4SiO4sK4TiO4s
K6MgO4sK8CaSi10O25sK8Ti5O14s
KAl4F13sKAlF4sKAlO2s1,s2
KAlSi2O6sKAlSi3O8sKAlSiO4s1,s2
KCaF3sKFs,lKMg2Al15O25s
KMgF3sLa2O3s,lLaAl11O18s
Li2Os,lLi2SiF6sLi2ZrO3s
Li3AlF6s1-s3Li3NaSiO4sLi3PO4s
Li4P2O7sLi5P3O10sLi8ZrO6s
LiFs,lLiPO3sLu2O3s,l
Mg2Al4Si5O18sMg2B2O5sMg2P2O7s1,s2
Mg2SiO4s1-s3Mg2TiO4s1,s2Mg3Al2Si3O12s
Mg3B2O6sMg3P2O8sMg3SiF2O4s
Mg4Al10Si2O23sMg5Si2F2O8sMg6MnO8s
Mg9Si4F2O16sMgB4O7sMgF2s
MgOs,lMgP2O6sMgP4O11s
MgSiO3s1-s7MgTi2O5sMgTiO3s
Mn2Al4Si5O18sMn2B2O5sMn2B6O11s
Mn2O3s1,s2Mn2P2O7sMn2SiO4s
Mn2TiO4s1,s2Mn3Al2Si3O12sMn3B2O6s
Mn3P2O8sMnB2O4sMnB4O7s
MnB6O10sMnOs,lMnO2s
MnP2O6sMnSiO3sMnTi2O4s
MnTi2O5sMnTiO3sNa10SiO7s
Na12Mg4P10O35sNa18Si6P4O31sNa2Al12O19s
Na2B4O7sNa2B8O13sNa2Ca2P2O8s
Na2Ca2Si2O7sNa2Ca3Al16O28sNa2Ca3Si6O16s
Na2Ca8Al6O18sNa2CaP2O7sNa2CaSi5O12s
Na2CaSiO4sNa2FeO2sNa2FeSiO4s
Na2Mg2Si2O7sNa2Mg2Si6O15sNa2Mg5Si12O30s
Na2MgP2O7sNa2MgP4O12sNa2MgSi4O10s
Na2MgSiO4sNa2Os1-s3,l(Na2O)(TiO2)3s
(Na2O)(TiO2)6sNa2Si2O5s1-s3Na2SiF6s1,s2
Na2SiO3sNa2TiO3s1,s2Na3BO3s
Na3Fe5O9sNa3FeO3sNa3MgP3O10s
Na3PO4s1,s2Na4B2O5sNa4CaP6O18s
Na4CaSi3O9sNa4Fe6O11sNa4FeO3s
Na4Mg2Si3O10sNa4Mg3Si5O15sNa4MgP6O18s
Na4P2O7s1-s6Na4SiO4sNa4TiO4s
Na5FeO4sNa5FeSi4O12sNa5P3O10s1,s2
Na5Si2PO9sNa6Si2O7sNa6Si8O19s
Na8Ca3Si5O17sNa8Fe2O7sNa8Fe6Si15O40s
Na8Ti5O14sNaAl9O14sNaAlO2s1,s2
NaAlSi2O6sNaAlSi3O8s1,s2NaAlSiO4s1,s2
NaB3O5sNaB5O8sNaB9O14s
NaBO2sNaBSiO4sNaCaP3O9s
NaFs,lNaFe2O3sNaFeO2s1,s2
NaFeSi2O6sNaMgP3O9sNaMgPO4s
NaPO3s1-s3Nd2O3s1,s2,lNi2SiO4s
NiCaSi2O6sNiOs,lP2O5s1-s3,l1-l3
P2SiO7s1-s3P4Si3O16sPb10Fe2Si2O17s
Pb2Fe2O5sPb2Fe2Si2O9sPb2SiO4s1,s2
Pb2ZnSi2O7sPb3Ca2Si3O11sPb4SiO6s
Pb8CaSi6O21sPb8ZnSi6O21sPbCa2Si3O9s
PbFe10O16sPbFe4O7sPbOs1,s2,l
(PbO)(Al2O3)s(PbO)(Al2O3)6s(PbO)2(Al2O3)s
PbSiO3s1,s2PbZnSiO4sPm2O3s,l
Pr2O3s,lSiAl2F2O4sSiF4l
SiO2s1-s8,lSm2O3s1,s2,lSnOs
SnO2s,lSr2Al2B2O8sSr2Al2SiO7s
Sr2B2O5sSr2MgSi2O7sSr2SiO4s1-s3
Sr3Al2O6sSr3B2O6sSr3B2SiO8s
Sr3MgSi2O8sSr3SiO5sSr4Al14O25s
Sr4Al2O7s1,s2Sr5Al2O8sSr6Al18Si2O37s
SrAl10MgO17sSrAl12O19sSrAl2B2O7s
SrAl2O4s1,s2SrAl2Si2O8sSrAl4O7s
SrB2O4sSrB4O7sSrB6O10s
SrOs,lSrSiO3sTb2O3s,l
Tb3Al5O12sTb4Al2O9sTi10O19s
Ti2O3s1,s2,lTi2ZrO6sTi20O39s
Ti3O5s1,s2Ti4O7sTi5O9s
Ti6O11sTi7O13sTi8O15s
Ti9O17sTiO2s1,s2,lTm2O3s1-s3,l
Tm3Al5O12sTm4Al2O9sYb2O3s1-s3,l
Yb4Al2O9sZn2SiO4sZnOs,l
ZrO2s1-s3,lZrSiO4sZrTiO4s