List of 126 Solutions and 363 Compounds in SGnobl
List of 126 Solutions
1. SGnobl-A3TI
A3TI
Solution phase formed by solution of Ag in Al3Ti
2. SGnobl-AA3S
AA3S
The Ag3M or Au3M phase with M = Bi, Sb, Sn
3. SGnobl-AAA2
AAA2
Solution phase formed between Al2Au and hypothetical Ag2Au in the Ag-Al-Au system
4. SGnobl-AGM3
AGM3
Solution phase based on AgMg3 with solution of Al in Ag-Al-Mg system
5. SGnobl-AGT2
AGT2
Solution phase formed between AgTi2 and CuTi2 in the Ag-Cu-Ti system
6. SGnobl-AGZ1
AgZn_BRASS
Solution phase at ca. 62 at.% in the Ag-Zn system
7. SGnobl-AGZ3
AGZN_ZETA
Ordered bcc phase at ca. 40 at. % Zn in the Ag-Zn system
8. SGnobl-AL14
Al12Mg17
Al-Mg-Li solid solution
9. SGnobl-AL31
Al3M_D022
Phase with ca.75 at-% Al in Al-Mo,Nb,Ta,Ti,V
10. SGnobl-ALM3
AlMg_GAMMA
Al-Mg solid solution at 50-60 at-% Mg with solubility of Zn
11. SGnobl-ALMD
ALM_D019
Al-Ti phase (ca. 60 to 78 at.% Ti) with solubility for Mo, Nb, Ta, V and W.
12. SGnobl-ALPT
ALPT3
Phase at 75 at.% Pt in the Al-Pt system
13. SGnobl-ALTI
ALTI
Al-Ti phase (ca.38 to 52 at.% Ti) with solubil. for Cr,Mo,Nb,Ta,V,W
14. SGnobl-APP1
APP3S
Phase found at 25 at.%Sn in the Pd-Sn and Pt-Sn systems, with solubility for Au
15. SGnobl-APP2
APPS
Phase found at 50 at.%Sn in the Au-Sn, Pd-Sn and Pt-Sn systems
16. SGnobl-APP3
APPS4
Phase found at 80 at.%Sn in the Au-Sn, Pd-Sn and Pt-Sn systems
17. SGnobl-ASS2
ASS2
Solution phase formed by solution of AuSn2 in AuSb2
18. SGnobl-AU1S
Au1Sn
Equiatomic phase in the Au-In and Au-Sn systems, with solubility for Ni.
19. SGnobl-AU2B
Au2Bi_C15
Phase at ca. 67 at.% Au in the Au-Bi system with solubility for Ag
20. SGnobl-AU2H
Au2Hf
Au-Hf solid solution at 29-33 at-% Hf
21. SGnobl-AU3I
AU3IN
Phase at 25 at% In in the Au-In system, with solubility for Pb
22. SGnobl-AU4I
AU4IN
Phase at ca. 20 at% In in the Au-In system, with solubility for Pb
23. SGnobl-AU5H
Au5Hf
Au-Hf solid solution at 16 at-% Hf
24. SGnobl-AU62
AU62IN38
Phase at ca. 38 at% In in the Au-In system, with solubility for Pb
25. SGnobl-AU7I
AU7IN3
Phase at ca. 30 at% In in the Au-In system, with solubility for Pb
26. SGnobl-AUH1
AuHf_ALPHA
Au-Hf solid solution at 48-50 at-% Hf, stable to 1384 K.
27. SGnobl-AUH2
AuHf_BETA
Au-Hf solid solution at 48-50 at-% Hf, stable 1384 to 2025 K.
28. SGnobl-AUI1
AuIn
Equiatomic phase in the Au-In and Au-Sn systems
29. SGnobl-AUI2
AuIn2
Phase at ca. 33 at.% Au in the Au-In, Au-Sb and Au-Sn systems
30. SGnobl-AUI3
AuIn_GAMMA
Phase at ca. 30 at.% In in the Au-In system
31. SGnobl-AUI4
AuIn_PSI
Phase at ca. 38 at.% In in the Au-In system
32. SGnobl-AUIN
Au4In3Sn3
Ternary phase in the Au-In-Sn system
33. SGnobl-AUS1
AuSb2
Phase at ca. 67 at.% Sb in the Au-Sb system with solubility for Bi, In.
34. SGnobl-AUS2
AuSn4
Phase at 80 at.% Sn in the Au-Sn system, with solubility for In and Ni.
35. SGnobl-AUZ1
AUZN_A1
Phase at ca. 25 at.% Zn in the Au-Zn system
36. SGnobl-AUZ2
AUZN_A3
Phase at ca. 16 at.% Zn in the Au-Zn system
37. SGnobl-AUZ3
AUZN_BETA
Phase at ca. 37 to 57 at.% Zn in the Au-Zn system
38. SGnobl-AUZ4
AUZN_G3
Phase at ca. 82.5 at.% Zn in the Au-Zn system
39. SGnobl-AUZ5
AuZn_GAMMA
Phase at ca. 65 to 74 at.% Zn in the Au-Zn system
40. SGnobl-BCC2
BCC_B2!BCC_A2
"[I]" Ordered BCC phase in Fe-Al, Fe-Si and Cu-Zn, use I option.
41. SGnobl-BCC3
BCC_LT
Low-temp. BCC phase in the Ag-Cd system
42. SGnobl-BCC4
BCC_B2_2
"[I]" Phase found in the In-Pd, Al-Ir, Al-Ru systems
43. SGnobl-BCC_
BCC_A2
Body centred cubic alloy phase
44. SGnobl-BCT_
BCT_A5
Sn solid solution with solubility for Ag,Al,Bi,In,Ni,Pb,Pd,Sb,Zn
45. SGnobl-BET1
BETA_RHOMBO_B
B (rhombohedral) with solubility for Mn
46. SGnobl-BI3P
Bi3Pd5
Phase at ca. 65 at.% Pd in the Bi-Pd system
47. SGnobl-CBCC
CBCC_A12
"[I]" The solid solution based on alpha-Mn.
48. SGnobl-COP1
CoPt
Co-Pt binary phase at ca. 40-63 at.% Pt. Stable to ca. 827 C.
49. SGnobl-COP2
CoPt3
Co-Pt binary phase at ca. 70-77 at.% Pt. Stable to ca. 756 C.
50. SGnobl-CR2M
CR2M
Solution phase describing solution of hypothetical Cr2Ni in Cr2Ru
51. SGnobl-CRPT
CRPT2
"[+]"
52. SGnobl-CU3P
CU3P
The Cu3Pt phase in the Cu-Pt system
53. SGnobl-CU3S
Cu3Sn
Phase at 75 at.% Cu in the Cu-Sn system with solubility for In and Ni
54. SGnobl-CU41
Cu41Sn11
Phase at ca. 21 at.% Sn in the Cu-Sn system
55. SGnobl-CU4T
Cu4Ti
Cu-Ti solid solution at 20 at-% Ti, stable to 1169 K.
56. SGnobl-CU77
Cu77InSn23
Ternary phase in the Cu-In-Sn system
57. SGnobl-CUB1
CUB_A13
The solid solution based on beta-Mn
58. SGnobl-CUB2
CUB_A13
Phase at ca. 20-25 at.% Al in the Ag-Al system
59. SGnobl-CUI1
CuIn_DELTA
Phase at 30 at.% In in Cu-In with solubility for Sn
60. SGnobl-CUI2
CuIn_ETA
Phase between ca. 34 and 38 at.% In in Cu-In with solubility for Ni and Sn
61. SGnobl-CUI3
CuIn_GAMMA
Stable around 30 at.% In in Cu-In and Ag-In with solubility for Sn
62. SGnobl-CUP3
CUP3
Exptl. evidence for the CuPt3 phase is very tentative
63. SGnobl-CUPT
CUPT
The CuPt phase in the Cu-Pt system
64. SGnobl-CUS1
CuSb_FCC_BETA
Cu-Sb solid solution at 20-32 at-% Sb, stable 680-966 K.
65. SGnobl-CUS2
CuSn_GAMMA_DO3
Cu-Sn solid solution at 16-28 at-% Sn, stable 794 -1029 K.
66. SGnobl-CUTI
CuTi
Cu-Ti solid solution at 50 at-% Ti, stable to 1248 K.
67. SGnobl-CUZN
CuZn_GAMMA
Cu-Zn solid solution at 56-69 at-% Zn, solubility of Mg
68. SGnobl-DHCP
DHCP
Phase found in the Au-In and Au-Sn systems
69. SGnobl-DIAM
DIAMOND_A4
70. SGnobl-FCC
FCC_A1
"[I]" Face centred cubic phase with interstitial vacancy and C
71. SGnobl-FCC1
FCC_A1_AuCu
FCC_A1 phase only in Au-Cu
72. SGnobl-FCC2
FCC_L12!FCC_A1
"[I]" Ordered FCC phase in Al-Ni, Fe-Ni and Ni-Si, use I option.
73. SGnobl-FEP1
FEPD
"[I]" Phase at the equiatomic composition in the Fe-Pd system
74. SGnobl-FEP2
FEPD3
"[J]" Phase at ca. 75 at.% Pd in the Fe-Pd system
75. SGnobl-FN3P
FN3P
The ordered phase formed between Fe3Pt and Ni3Pt
76. SGnobl-FNP3
FNP3
The ordered phase formed between FePt3 and (hypothetical) NiPt3
77. SGnobl-FNPT
FNPT
The ordered phase formed between FePt and NiPt
78. SGnobl-GAMM
PD2SN_GAMMA
Phase at ca. 67 at.% Pd in the Pd-Sn system
79. SGnobl-GRAP
GRAPHITE
C with solubility for B
80. SGnobl-HCP1
HCP_A3
"[I]" Hexagonal close packed alloy phase
81. SGnobl-HCPZ
HCP_Zn
"[I]" Zn(Ag,Al,Cd,Cr,Cu,Ga,In,Mg,Si,Sn,Zn,Au,Bi,Pb,Pd) solid solution
82. SGnobl-IN3P
In3Pd2
Phase at ca. 40 at.% Pd in the In-Pd system
83. SGnobl-INSN
InSn_GAMMA
Phase between ca. 76 and 96 at.% Sn in the In-Sn system
84. SGnobl-LAV1
LAVES_C14
Phase with A2B stoichiometry, present in e.g. Mg-Zn
85. SGnobl-LAV2
LAVES_C15
A2B phase in e.g. Cu-Mg
86. SGnobl-LIQ1
LIQUID phase
"[I]" Liquid alloy phase
87. SGnobl-M5R3
M5R3
Phase formed between stable Mo5Ru3 and metastable Mo5Pd3 and Mo5Rh3
88. SGnobl-MNP3
MNP3
The solution phase formed between MoNi3 and hypothetical MoPd3 in the Mo-Ni-Pd system
89. SGnobl-MNP4
MNP4
The solution phase formed between MoNi4 and hypothetical MoPd4 in the Mo-Ni-Pd system
90. SGnobl-MONI
MoNi_DELTA
Mo-Ni solid solution with solubility of Cr and Fe
91. SGnobl-N3S2
N3S2
Solution phase formed between Ni3Si2 and hypothetical Pd3Si2 in the Pd-Ni-Si system
92. SGnobl-N5S2
N5S2
Solution phase formed between Ni5Si2 and hypothetical Pd5Si2 in the Pd-Ni-Si system
93. SGnobl-NI31
Ni3Sn2
"[I]" Phase at ca. 60 at.% Ni in the Ni-Sn system, with solubility for Au and Cu
94. SGnobl-NI32
Ni3Sn4
Phase at ca.44 at.% Ni in the Ni-Sn system, with solubility for Cu
95. SGnobl-NI34
Ni3Sn_LT
Phase at 75 at.% Ni in the Ni-Sn system, with solubility for Cu
96. SGnobl-ORD*
ORDER!FCC_A1_AuCu
This is the ordered FCC_A1 phase in Au-Cu!
97. SGnobl-PD20
PD20SN13
Phase at ca. 60 at.% Pd in the Pd-Sn system
98. SGnobl-PD31
PD3PB
Phase at ca. 75 at.% Pd in the Pb-Pd system
99. SGnobl-PD32
PD3SN
Phase at ca. 75 at.% Pd in the Pd-Sn system
100. SGnobl-PD34
PD3ZR
Phase at ca. 75 at.% Pd in the Pd-Zr system
101. SGnobl-PD51
PD5PB3_B
Phase at ca. 66 at.% Pd in the Pb-Pd system
102. SGnobl-PD52
PD5PB3_G
Phase at ca. 64 at.% Pd in the Pb-Pd system
103. SGnobl-PDS1
PDSN
Phase at ca. 50 at.% Pd in the Pd-Sn system
104. SGnobl-PDS2
PDSN2
Phase at ca. 33 at.% Pd in the Pd-Sn system
105. SGnobl-PDS3
PdSn3
Pd-Sn solid solution at 74 at-% Sn, stable to 627 K
106. SGnobl-PDS4
PdSn4
Pd-Sn solid solution at 80 at-% Sn, stable to 565 K
107. SGnobl-PDZ1
PdZn_GAMMA
Phase at ca. 20 at.% Pd in the Pd-Zn system
108. SGnobl-PDZ2
PdZn_BETA
High-T phase with wide stoichiometric range at ca. 50 at.% Pd in Pd-Zn system
109. SGnobl-PDZ3
PdZn_1BETA
Phase with wide stoichiometric range at ca. 50 at.% Pd in the Pd-Zn system
110. SGnobl-PDZ4
PDZRM
Phase at ca. 33 at.% Pd in the Pd-Zr system
111. SGnobl-PDZ5
PDZR_GAMMA
Phase at ca. 50 at.% Pd in the Pd-Zr system
112. SGnobl-PN2S
PN2S
Solution phase formed between Pd2Si and Ni2Si in the Pd-Ni-Si system
113. SGnobl-PN3S
PN3S
Solution phase formed between Pd3Si and Ni3Si in the Pd-Ni-Si system
114. SGnobl-PNS1
PNS1
Solution phase formed between NiSi and PdSi in the Pd-Ni-Si system
115. SGnobl-PP2S
PP2S
Ternary Pd-Pt-Sn phase with ca. 33 at% Sn
116. SGnobl-PP31
PP3S2
Ternary Pd-Pt-Sn phase with ca. 40 at% Sn
117. SGnobl-PP32
PP3TI
Ternary Pd-Pt-Ti phase with ca. 25 at% Ti
118. SGnobl-PP5S
PP5S3
Ternary Pd-Pt-Sn phase with ca. 37.5 at% Sn
119. SGnobl-PPTI
PPTI
Ternary Pd-Pt-Ti phase with ca. 50 at% Ti
120. SGnobl-RHFE
RHFE
The ordered BCC phase based on the composition RhFe
121. SGnobl-RHOM
RHOMBOHEDRAL_A7
122. SGnobl-SBSN
SbSn
Equiatomic phase in Bi-In, In-Sb, Sb-Sn, with solubility for Pb
123. SGnobl-SIGM
SIGMA
Phase between ca.64 and 75 at.% Ta or Tc in the Pt-Ta and Mo-Tc systems
124. SGnobl-TET1
TETRAG_A6
125. SGnobl-TET2
TET_ALPHA1
Phase found in In-rich solid solutuons with Bi,Pb,Sn.
126. SGnobl-TETA
TETA
High-temperature Ni-Si binary phase at 33-40 at.% Si, stable between ca. 1097 to 1565 K.
List of 363 Compounds
Ag | s,g | Ag2 | g | Ag2Ba | s |
Ag2Ba3 | s | Ag2Ca | s | Ag2Cd3 | s |
Ag2Ce | s | Ag3Be8 | s | Ag3Ca5 | s |
Ag3In | s | Ag3Mg | s | Ag4Ce | s |
Ag5Ba | s | Ag51Ce14 | s | Ag7Al2Si | s |
Ag7Ca2 | s | Ag9Ca2 | s | AgAlMg | s |
AgBa | s | AgCa | s | AgCa3 | s |
AgCd | s | AgCe | s | AgIn2 | s |
AgMg3 | s | AgTi | s | AgTi2 | s |
AgZr | s | AgZr2 | s | Al | s |
Al11Cr2 | s | Al13Cr2 | s | Al13Ir4 | s |
Al13Ru4 | s | Al140Mg89 | s | Al17Ti8 | s |
Al2Au | s | Al2Au5 | s | Al2Pt | s |
Al2Ru | s | Al2Ti | s | Al21Pt5 | s |
Al21Pt8 | s | Al27Ir10 | s | Al28Ir9 | s |
Al3Ir | s | Al3Pt2 | s | Al3Pt5 | s |
Al3Ru2 | s | Al30Mg23 | s | Al4Cr | s |
Al45Ir13 | s | Al6Ru | s | Al7Cr2Ru | s |
Al8Cr5 | s1,s2 | Al9Cr4 | s1,s2 | Al9Ir2 | s |
AlAs | s | AlAu | s | AlAu2 | s |
AlAu2Ti | s | AlAu4 | s | AlAuTi | s |
AlCr2 | s | AlPt | s | As | s,l |
As2Pd5 | s | As2Pt | s | AsPd5 | s |
Au | s,l | Au10Hf7 | s | Au10Zr7 | s |
Au14In4 | s | Au2Be | s | Au2Bi | s |
Au2Ce | s | Au2Pb | s | Au2Ta | s |
Au2Ta3 | s | Au2Ti | s | Au2Zr | s |
Au2Zr3 | s | Au3Be | s | Au3Hf | s |
Au3In | s | Au3Ta16 | s | Au3Zn | s |
Au3Zr | s | Au4Hf | s | Au4Ti | s |
Au4Zn5 | s | Au4Zr | s | Au5Sn | s |
Au5Zn3 | s | Au51Ce14 | s | Au6Ce | s |
Au7In2 | s | Au7In3 | s | AuBe | s |
AuBe3 | s | AuBe5 | s | AuCe | s |
AuCe2 | s | AuHf2 | s | AuIn | s |
AuIn2 | s | AuNi2Sn4 | s | AuPb2 | s |
AuPb3 | s | AuSb2 | s | AuSn | s |
AuSn2 | s | AuSn4 | s | AuTa3 | s |
AuTe2 | s | AuTi | s | AuTi3 | s |
AuZn3 | s | AuZn6 | s | AuZr | s |
AuZr2 | s | AuZr3 | s | B | s1,s2 |
Ba | s,l | Be | s1,s2,l,g | Bi | s,l |
Bi2Pd | s | Bi2Pd5 | s | Bi2Pt | s |
Bi3Pt2 | s | BiPd | s | BiPd3 | s |
BiPt | s | C | s | Ca | s1,s2,l |
CaC | s | Cd | s,l,g | Ce | s1-s4,l |
Co | s1,s2,l | Co3Sn2 | s | CoSn | s |
CoSn2 | s | Cr | s | Cr2Pd3 | s |
Cr2Ru | s | Cr3Rh | s | Cr3Ru | s |
Cr4Pt | s | CrPd | s | Cu | s,l |
Cu10Sn3 | s | Cu11Sb2 | s | Cu2Sb | s |
Cu2Ti | s1,s2 | Cu3Ge | s | Cu3Sn | s |
Cu3Ti2 | s1,s2 | Cu4Sn | s | Cu4Ti3 | s1,s2 |
Cu5In4 | s | Cu6Sn5 | s1,s2 | Cu7In3 | s |
Cu7In4 | s | Cu73Sb20 | s | Cu9Sb2 | s |
CuMg2 | s | CuTi2 | s1,s2 | Dy | s1,s2,l |
Dy2Fe17 | s | Dy2Pt | s | Dy3Pt | s |
Dy3Pt4 | s | Dy5Pt3 | s | Dy5Pt4 | s |
Dy6Fe23 | s | DyFe2 | s | DyFe3 | s |
DyPt | s | DyPt2 | s | DyPt3 | s |
DyPt5 | s | Fe | s1,s2,l | Fe2Si | s |
Fe3Si7 | s | Fe5Si3 | s | FeSi | s |
FeSi2 | s | Ge | s | Hf | s1,s2,l,g |
In | s,l | In2Pd4 | s | In2Pd6 | s |
In3Pd2 | s | In3Pd5 | s | In7Pd3 | s |
InPd2 | s | InPd3 | s | InPt3 | s |
InSb | s | Ir | s,l | Li | s,l,g |
Mg | s | Mg12Zn13 | s | Mg2Sn | s |
Mg2Zn11 | s | Mg2Zn3 | s | Mg51Zn20 | s |
Mn | s1-s4,l | Mo | s,l | Mo2Si | s |
Mo3Si | s | Mo5Pd3 | s | Mo5Rh3 | s |
Mo5Ru3 | s | Mo5Si3 | s | Mo9Tc11 | s |
MoNi3 | s | MoNi4 | s | MoRh | s |
MoRh3 | s | MoSi2 | s1,s2,l | Nb | s,l,g |
Ni | s,l | Ni18Pd7Si9 | s | Ni2Si | s |
Ni3Si | s1,s2 | Ni3Si2 | s | Ni3Sn | s |
Ni5Si2 | s | NiPd2Si | s | NiSi | s |
NiSi2 | s | Os | s,l | Pb | s,l |
Pb2Pd | s | Pb2Pd3 | s | Pb2Rh | s |
Pb2Rh3 | s | Pb3Pd5 | s | Pb4Pt | s |
Pb4Rh | s | Pb5Rh4 | s | PbPd | s |
PbPt | s | PbPt3 | s | PbRh | s |
Pd | s | Pd11Mg9 | s | Pd11Zr9 | s |
Pd14Si3 | s | Pd2Ca | s | Pd2Ca3 | s |
Pd2Ca5 | s | Pd2Mg5 | s | Pd2Nb | s |
Pd2Si | s,l | Pd2Ti | s | Pd2V | s |
Pd2Zn | s | Pd23Si12 | s | Pd3Mg17 | s |
Pd3Nb | s | Pd3Sb | s | Pd3Si | s |
Pd3Si2 | s | Pd3Sn2 | s1,s2 | Pd3Ti | s |
Pd3Ti2 | s | Pd3V | s | Pd4Zr3 | s |
Pd5Si | s | Pd5Si2 | s | PdCa | s |
PdCa3 | s | PdCa9 | s | PdMg | s |
PdMg3 | s | PdMg4 | s | PdNb | s |
PdSi | s | PdSn | s | PdSn2 | s1,s2 |
PdTi | s | PdTi2 | s | PdV3 | s |
PdZn10 | s | PdZn2 | s | PdZr | s1,s2 |
Pt | s,l | Pt12Si5 | s | Pt2B | s |
Pt2Ce | s | Pt2Ce3 | s | Pt2Ge | s |
Pt2Ge3 | s | Pt2Si | s | Pt2Sn | s |
Pt2Sn3 | s | Pt2Ta | s | Pt2W | s |
Pt3B | s | Pt3B2 | s | Pt3Ce7 | s |
Pt3Ge | s | Pt3Ge2 | s | Pt3Si | s |
Pt3Sn | s | Pt3Sn2 | s | Pt3Ta | s |
Pt3Ti | s | Pt3Zn | s | Pt3Zr | s |
Pt4Ce3 | s | Pt5Ce | s | Pt5Sb | s |
Pt5Sn3 | s | Pt6Si5 | s | PtCe | s |
PtGe | s | PtGe2 | s | PtSi | s |
PtSn | s | PtSn2 | s | PtSn4 | s |
PtTa | s | PtTa6 | s | PtTi | s |
PtTi3 | s | PtW | s | PtZn | s |
Re | s,l,g | Rh | s,l | Rh2Sb | s |
Rh2Si | s | Rh2Sn | s | Rh3Si2 | s |
Rh3Si4 | s | Rh3Zr | s | Rh4Si5 | s |
Rh5Si3 | s | RhSi | s | Ru | s |
Ru2Si | s | Ru2Si3 | s | Ru2Zr | s |
Ru4Si3 | s | Ru5Si3 | s | RuSi | s |
RuZr | s | Sb | s,l | Sb2Sn3 | s |
Sb42Sn58 | s | Si | s,l | Sn | s1,s2,l |
Ta | s,l | Tc | s,l,g | Te | s,l |
Ti | s | Tl | s1,s2,l | V | s,l,g |
W | s,l,g | Zn | s,l | Zr | s1,s2 |