List of 186 Solutions and 1014 Compounds in FSstel
List of 186 Solutions
1. FSstel-A11C
Al11(Cr,Mn)2
Al11(Cr,Mn)2
2. FSstel-A13F
Al13Fe4 (Al)32(Fe,Ni,Co)12(Al,Si,Va,Zn)7
Al13Fe4 (Al)32(Fe,Ni,Co)12(Al,Si,Va,Zn)7
3. FSstel-A2F1
Al2Fe Al2(Fe,Ni,Co)
Al2Fe Al2(Fe,Ni,Co)
4. FSstel-A3C1
Al3Co Al3(Co,Ni)
Al3Co Al3(Co,Ni)
5. FSstel-A3M2
Beta_Al3Mg2
This is the Al3Mg2
6. FSstel-A3N1
Al3Ni Al3(Fe,Ni)
Al3Ni Al3(Fe,Ni)
7. FSstel-A3N2
Al3Ni2
Al-Ni phase at ca. 60-65 at.% Al. Stable to 1406 K
8. FSstel-A3N5
Al3Ni5 Al3(Fe,Ni)5
Al3Ni5 Al3(Fe,Ni)5
9. FSstel-A3Nb
Al3Nb solution
Al3Nb solution
10. FSstel-A4C
Al4Cr rich phase containing limited amount of Cu, Mn, Si
(Al,Cu,Si,Va)4(Cr,Mn)
11. FSstel-A5C2
Al5Co2 Al5(Fe,Co)2
Al5Co2 Al5(Fe,Co)2
12. FSstel-A5F2
Al5Fe2 (Al,Si)5(Fe,Ni,Co)2
Al5Fe2 (Al,Si)5(Fe,Ni,Co)2
13. FSstel-A7CR
Al7(Cr,Mn)
Al7(Cr,Mn)
14. FSstel-A8F5
Al8Fe5 D8_2 (Al,Fe)8(Al,Fe)5
(use [I]-option)
15. FSstel-A9C2
Al9Co2 Al9(Fe,Co,Ni)2
Al9Co2 Al9(Fe,Co,Ni)2
16. FSstel-AC2
AlCr2 containing limited amount of Mn and Si
(Al,Cr,Mn,Si)(Al,Cr,Mn)2
17. FSstel-ACMH
H-Al8(Cr,Mn)5 gamma-H Al8Cr5-Al8Mn5
high temperature Al8Cr5-Al8Mn5 phase
18. FSstel-ACML
L-Al8(Cr,Mn)5 Gamma D810
low temperature Al8Cr5-Al8Mn5 phase
19. FSstel-ACN
AlCrNi ternary phase
(Al,Cr,Ni)8(Al,Cr,Ni)2(Al,Cr,Ni)
20. FSstel-ACN2
AlCoNi tao1
Al14(Al,Co,Ni)1(Al,Co,Ni)5
21. FSstel-ACN3
Al4(Co,Ni)3 ternary phase
Al4(Co,Ni)3 ternary phase
22. FSstel-AL11
HTAl11Mn4-oP156 (Al,Mn)29(Mn)10
HTAl11Mn4-oP156 (Al,Mn)29(Mn)10
23. FSstel-ALC1
AlCu_EPSILON
High-temperature binary Al-Cu phase (ca.866-1100 K)
24. FSstel-ALC2
AlCu_ETA
Exists ca. 50 at. % Cu. Stable to ca. 920 K
25. FSstel-ALC3
AlCu_THETA
Exists ca. 31-33 at.% Cu. Stable to ca. 872 K.
26. FSstel-ALMO
AlMo [I]
Al-Mo phase between ca. 48 & 54 at.% Mo. Stable from 1470 to 1720 C. Use I-option
27. FSstel-AlP
AlP (Al,Fe)1(P)1
(use [I]-option)
28. FSstel-ANb2
AlNb2 solution
AlNb2 solution
29. FSstel-ANb3
AlNb3 solution
AlNb3 solution
30. FSstel-B_nS
B_nSI
B-Si binary phase between ca. 94 to 99 at.% B. Stable to ca. 2298 K.
31. FSstel-B2M
B2M
(Hf,Ti)B2 in the system B-Hf-Ti
32. FSstel-B3Si
B3Si
B-Si binary phase at ca. 75 at.% B. Stable to ca. 1548 K.
33. FSstel-B4M3
B4M3
(Hf,Ti)3B4 at 57 at.% B, stable to 2473 K, system B-Hf-Ti
34. FSstel-B6Si
B6Si
B-Si phase at ca. 86 at.% B. Stable to ca. 2113 K.
35. FSstel-BCC
BCC_A2 Prototype_W-A2 cI2 Im-3m (229)
(use [I]-option) C, N and B interstitial
36. FSstel-BCC2
BCC_B2!BCC_A2 [I]
Ordered BCC phase in Fe-Al, Fe-Si, Ni-Al, Co-Al, ..use I option.
37. FSstel-BCT5
BCT_A5
Solid solution based on Sn with solubility for Al,Bi,Pb,Sb,Si,Ti and Zn.
38. FSstel-BETA
BETA_Tetragonal VH
(use [I]-option) H interstitial
39. FSstel-BetB
Beta_Rhombo_B
Solid solution based on B with solubility for C and Si.
40. FSstel-BETx
BETx!BETA_Tetragonal VH
(Use [J]-option)
41. FSstel-BM
BM
(Hf,Ti)B in the system B-Hf-Ti
42. FSstel-C3S
Cr3Si
(Cr,Si,Fe)3(Cr,Si,Al)
43. FSstel-CBCC
CBCC_A12
This is the alpha-Mn phase. Don't use if Mn is not in the system.
44. FSstel-CEME
CEMENTITE
"Fe3C" with dissolved Co,Cr,Mn,Mo,Nb,Ni,V and W. N also modeled on the C lattice.
45. FSstel-CHIA
CHI_A12
Found only in Fe-Cr based alloys with Mo and with W at certain concentrations - not present in the binaries
46. FSstel-Co3W
Co3W solid soluiton (Co,Ni)3W
Co3W solid soluiton (Co,Ni)3W
47. FSstel-Cove
Covellite CuS-(FeS) solid solution with CuS as major component
Covellite CuS-(FeS) solid solution with CuS as major component
48. FSstel-CoZG
CoZn-Gamma CoZn gamma phase (about 70-80 at.% Zn)
CoZn-Gamma CoZn gamma phase (about 70-80 at.% Zn)
49. FSstel-CoZH
CoZn_beta-H CoZn solid solution at high tempreature
CoZn_beta-H CoZn solid solution at high tempreature
50. FSstel-CoZL
CoZn_beta-L CoZn solid solution at low tempreature
CoZn_beta-L CoZn solid solution at low tempreature
51. FSstel-Cr2B
Cr2B
The (Cr,Fe)2B phase with limited solublity of Fe2B.
52. FSstel-CS2
CrSi2
(Cr,Si)(Al,Cr,Si)2
53. FSstel-Cu4T
Cu4Ti
Cu-Ti binary phase with small range of stoichiometry. Stable to 1158 K.
54. FSstel-CUB
CUB_A13
This is the beta-Mn phase. Don't use if Mn is not in the system.
55. FSstel-CuMS
CuS-MeS nonstoichiometric solid solution [Cu2,Ni2,Fe,Va]S often denoted as Iss
It is not stable in the Cu-S or Me-S binary systems. Possible mis.gap (I-optiion)
56. FSstel-CuTi
CuTi
gamma-CuTi
57. FSstel-CUZN
CuZn_GAMMA
Phase exists between approx. 30 & 43 at.% Cu. Stable to ca. 1123 K.
58. FSstel-D019
AlTi3_D019 [I]
Al-Ti phase (ca. 60 to 78 at.% Ti) with solubility for Mo,Nb,Ta,Ti,V and W
59. FSstel-D03
M3RE (M = Mg, RE = Pr,Nd,Tb,Dy)
M3RE (M = Mg, RE = Pr,Nd,Tb,Dy)
60. FSstel-D82_
D82_FEZN_GAMMA
D82_FEZN_GAMMA
61. FSstel-D88_
D88_M5Si3
Ti-Si binary phase
62. FSstel-Dgnt
Digenite Cu(2-x)S-(FeS-NiS) Digenite/Bornite solid solution
Possible miscibility gap (use I-optiion)
63. FSstel-DHCP
DHCP_A3'
La,Ce,Pr,Nd,Gd,Sm,Dy,Y,Mg,Yb,Er,Sc (from FTlite)
64. FSstel-DIAM
Diamond_A4 Silicon solid solution
dissolving limited amount of Fe, P, C, Sn
65. FSstel-EpsH
Al3Ti-h Prototype_Al3Ti-h_tI8
(Use [I]-option)
66. FSstel-EPSI
EPSILON_FeSb
Fe-Sb binary phase, stoichiometric range ca. 40-47 at.% Sb. Stable to ca. 1292 K.
67. FSstel-EpsL
Al3Ti-l Prototype_Al3Ti-l_tI32
(Use [I]-option)
68. FSstel-Eta
Al2Ti1 Prototype_HfGa2_tI24
(Use [I]-option)
69. FSstel-F4Zr
Fe4Zr solution (Fe,Ni)4Zr
Fe4Zr solution (Fe,Ni)4Zr
70. FSstel-FCC
FCC_A1 [J]
Austenitic form of Fe with B, C, N and H in interstitial site. Use J option when austenite, MeC, MeN formation are possi
71. FSstel-Fe17
Fe17RE2 solid solution Fe17(Y,Ce,Pr,Nd,Sm,Gd,Tb,Dy,Ho,Er,Tm,Lu)2
Fe17RE2 solid solution Fe17(Y,Ce,Pr,Nd,Sm,Gd,Tb,Dy,Ho,Er,Tm,Lu)2
72. FSstel-Fe2A
Fe2Al5(Zn,Va)3
Fe2Al5(Zn,Va)3
73. FSstel-Fe2T
Fe2Ta
This is part of Laves_C14 but not combined yet
74. FSstel-FeSi
FeSi (Fe)1(Si,P)1
(use [I]-option)
75. FSstel-FEZ1
FEZN4_GAMMA1
FEZN4_GAMMA1
76. FSstel-FEZ2
FEZN_DELTA
FEZN_DELTA
77. FSstel-FEZ3
FEZN_ZETA
FEZN_ZETA
78. FSstel-FS2H
Fe3Si7 (Fe)3(Si,Al)7 High Temperature
Fe3Si7 (Fe)3(Si,Al)7 High Temperature
79. FSstel-FS2L
Fe1Si2 (Fe)1(Si,Al)2 Low Temperature
Fe1Si2 (Fe)1(Si,Al)2 Low Temperature
80. FSstel-FZR2
FEZR2_C16 FeZr2-NiZr2
Fe-Zr binary phase at ca. 66 at.% Zr. Stable to 1223 K.
81. FSstel-FZR3
FEZR3_E1A
Fe-Zr binary phase at ca.75 at.% Zr. Stable to 1197 K.
82. FSstel-GAAM
Gamma_Al12Mg17
Gamma_Al12Mg17
83. FSstel-GAM3
GAMMA_DO3
High-temperature Cu-Sn binary phase, exists at ca. 15-28 at.% Sn. Stable between ca. 790 to 1026 K.
84. FSstel-GamH
Gamma_H_AlCu
High-temperature Al-Cu binary phase at 62-69 at.% Cu. Stable between ca. 1073 and 1273 K.
85. FSstel-GamL
Gamma_D83_Al5Cu8
Al-Cu phase between ca. 62-69 at. Cu. Stable to ca. 1153 K.
86. FSstel-Gamm
(Al,Fe,Zn)1(Zn)3
(Al,Fe,Zn)1(Zn)3
87. FSstel-HCP
HCP_A3 [I]
Hexagonal metallic structure with C, N and H
88. FSstel-HCP2
HCP_ZN
Solid soln. based on Zn with solubility for Ag,Al,Cd,Cr,Cu,Fe,Ga,Ge,In,Mg,Si,Sn.
89. FSstel-HIGH
HIGH_SIGMA
phase occuring at higher temperatures between approx. 75 and 80 at% Mn in the Cr-Mn system with solubility of Fe.
90. FSstel-HM2S
highT-(Fe,Mn,Co,Ni)2Sc MgNi2 structure C36
Mn2Sc, Co2Sc, Ni2Sc metastable
91. FSstel-HN3S
H-Ni3Sn2 solid solution
H-Ni3Sn2 solid solution
92. FSstel-KAPP
Kappa-Carbide (Fe,Mn)3(Fe,Mn,Al)(C,Va)
(use [I]-option)
93. FSstel-KSIC
KSI_CARBIDE
"Me3C" carbide with significant content of Cr,Fe and Mo
94. FSstel-L10
AlTi Prototype_AuCu
(Use [I]-option)
95. FSstel-L12
L12!FCC_A1
(Use [J]-option)
96. FSstel-LACN
CONB_lambda phase
Phase around the composition NbCo2 in the Co-Nb system. Stable to ca. 1480 C.
97. FSstel-LAV1
LAVES_C14 [I]
A2B phase, present in e.g. Cr-Ti,Mg-Zn,Mn-Ti,Fe-Nb,Fe-Ti,Fe-Mo,Cr-Nb
98. FSstel-LAV3
LAVES_C15 [I]
A2B phase in e.g. Co-Ta, Cr-Nb,-Ta,-Ti,-Zr, Fe-Ti, Mg-Zn, Mn-Ti, Co-Ti, Cu-Mg, Co-Zr
99. FSstel-LAV4
LAVES_C36 [I]
A2B phase in e.g. Cr-Zr, Mg-Ni, Hf-Mo, Co-Ti
100. FSstel-Liqu
LIQUID [I]
Liquid steel phase
101. FSstel-LM2S
LowT-(Fe,Mn,Co,Ni)2Sc Mg2Zn structure C14
Co2Sc, Ni2Sc metastable
102. FSstel-LN3S
L-Ni3Sn2 solid solution
L-Ni3Sn2 solid solution
103. FSstel-M11S
(Mn)11(Si,Al)19
(Mn)11(Si,Al)19
104. FSstel-M12Z
(Al,Fe)12Zr solution only at ternary system; not exist in binary system
(Al,Fe)12Zr solution only at ternary system; not exist in binary system
105. FSstel-M1S1
Me1Si1 (Fe,Mn,Cr)(Si)
Silicide phase found in Cr,Mn-containing steel
106. FSstel-M1T2
NiTi2 and CoTi2 phases
NiTi2 and CoTi2 phases
107. FSstel-M1Ta
Mu-(Ni,Fe)Ta
(Ni,Fe)7Ta6 phase
108. FSstel-M23C
M23C6
Carbide phase found in Cr,Mn-containing steel.
109. FSstel-M2B
M2B_TETR
The (Fe,Mo,Mn,Ni,Co)2B phase with limited Cr2B solubility
110. FSstel-M3C2
M3C2
Carbide phase sometimes found in Cr-containing steel.
111. FSstel-M3S1
Me3Si1 (Fe,Mn)3(Si)
Silicide phase found in Mn,Si-containing steel
112. FSstel-M3S2
Beta-Ni3S2 (high-temperature heazlewoodite), homogeneity range near Me3S2
Non-stoichiometric solid solution [Fe,Ni,Cu,Va]2[S]1, Possible mis.gap (I-option)
113. FSstel-M3V1
M3V1 solid soluiton (Co,Ni)3V1
M3V1 solid soluiton (Co,Ni)3V1
114. FSstel-M5C2
M5C2 (Fe,Mn)5(C,N)2
An iron carbonitride phase stabilized at certain compositions by Mn and N in solution
115. FSstel-M5S3
M5Si3 (Fe,Mn,Cr)5(Si)3
Silicide phase found in Cr,Mn,Si-containing steel
116. FSstel-M5SC
M5Si1C1 (Fe,Mn)5Si1C1
M5Si1C1 (Fe,Mn)5Si1C1
117. FSstel-M6C
M6C
This carbide can form in steels with higher Mo- and/or W-content
118. FSstel-M7C3
M7C3
Carbide phase found in Cr,Mn-containing steels.
119. FSstel-M8SC
M8Si2C1 (Fe,Mn)8Si2C1
M8Si2C1 (Fe,Mn)8Si2C1
120. FSstel-MC_E
MC_ETA
A Mo,W-carbide
121. FSstel-MC_S
MC_SHP
The WC carbide with fixed stoichiometry
122. FSstel-Me2P
Me2P (Fe,Mn,Al,Cr,Ni,Co)2(P,Si)1
(use [I]-option)
123. FSstel-Me3P
Me3P (Fe,Mn,Al,Cr,Ni,Cu,Mo,Co)3(P,Si)
(use [I]-option)
124. FSstel-Me4N
Me4N [I]
(Fe,Mn)4N phase with dissolved Co,Ni. C also dissolved in the N lattice.
125. FSstel-MeH2
(Ti,Zr)H2
(use [I]-option)
126. FSstel-MeP
MeP (Fe,Mn,Cr,Co)1(P,Si)1
MeP (Fe,Mn,Cr,Co)1(P,Si)1
127. FSstel-MeS2
MeS2 sol.solution FeS2(pyrite)-NiS2(vaesite)-(CuS2). Possible mis. gap (I option)
Solubility of CoS2, MnS2 in this phase has not been modeled, but could be large
128. FSstel-MeSi
FeSi rich solid soluiton (Fe,Ni)Si
FeSi rich solid soluiton (Fe,Ni)Si
129. FSstel-Mill
NiS-(CuS) Millerite low-T solid solution dilute in CuS
NiS-(CuS) Millerite low-T solid solution dilute in CuS
130. FSstel-MnTi
MnTi solid solution (Mn,Cr)Ti
MnTi solid solution (Mn,Cr)Ti
131. FSstel-MONI
MONI_DELTA
Stable to at. 1635 K.
132. FSstel-MONO
Monoxide
Oxide phase in FeO-MnO system.
133. FSstel-MS-c
MeS_cubic (Mn,Fe,Ca,Mg,Cr)S solid solution with cubic rocksalt structure
Possible miscibility gap if Ca is present (use I option)
134. FSstel-MU_P
MU_PHASE
Sometimes found in Mo,Nb,Ni-containing steels at lower temperatures.
135. FSstel-MUCN
CONB-MU Phase
Phase around the composition Nb6Co7 in the Co-Nb system. Stable to ca. 1402 C.
136. FSstel-MUHK
MUHK_PHASE
Co-Mo binary phase at ca. 40-49 at.% Mo. Stable to 1783 K.
137. FSstel-MuNb
MuNb MU phase (Fe,Mn)7(Nb)6 solution
do not use simultaneously MU_P (general Mu phase)
138. FSstel-N2Si
(Ni,Fe)2Si
(Ni,Fe)2Si
139. FSstel-N3SH
H-Ni3Sn solid solution
H-Ni3Sn solid solution
140. FSstel-N3SL
L-Ni3Sn solid solution
L-Ni3Sn solid solution
141. FSstel-N5S2
Ni5Si2 rich solution containing Fe5Si2
Ni5Si2 rich solution containing Fe5Si2
142. FSstel-N7Z2
Ni7Zr2 solutoin (Ni,Fe)7Zr2
Ni7Zr2 solutoin (Ni,Fe)7Zr2
143. FSstel-NAN1
Tau-2 phase Nb(Al,Ni)2 ternary phase
Tau-2 phase Nb(Al,Ni)2 ternary phase
144. FSstel-NAN2
Tau-3 phase Nb6(Al,Ni)7 ternary phase
Tau-3 phase Nb6(Al,Ni)7 ternary phase
145. FSstel-NbNi
Nb6Ni7 rich solid solution, Nb6(Cr,Nb,Ni)7
Nb6Ni7 rich solid solution, Nb6(Cr,Nb,Ni)7
146. FSstel-Ni2T
Ni2Ta
Ni2Ta
147. FSstel-Ni3M
Ni3M Ni3(Mo,Ta,Nb) solution containing small amount of Cr, Fe and Al
(Ni,Mo,Ta,Nb,Cr,Fe)3(Ni,Mo,Ta,Nb,Al)1
148. FSstel-Ni3T
Ni3Ti hP16_P63/mmc dissolvind Co and Fe
(Ni,Ti,Co,Fe)3(Ni,Ti,Co,Fe)1
149. FSstel-NIHF
NiHf2
Ni-Hf solid solution at 33 at-% Ni
150. FSstel-NiT2
NiTa2
NiTa phase stable to 1844 K.
151. FSstel-NiZr
NiZr solution (Ni,Fe)Zr
NiZr solution (Ni,Fe)Zr
152. FSstel-P_PH
P_PHASE
Phase found in high-temperature Ni-based alloys containing Mo.
153. FSstel-Pent
Pentlandite solid solution (Fe9S8-Ni9S8-Cu9S8)
The solubility of Co9S8 in this phase has not been modeled, but could be large
154. FSstel-PI
PI Cr-rich nitride containing Fe and Ni.
PI Cr-rich nitride containing Fe and Ni.
155. FSstel-PYRR
Pyrrhotite Non-stoichiometric high-T solid solution FeS-NiS-CrS-CoS(-CuS-MnS)
Possible miscibility gap (Use I option)
156. FSstel-R_PH
R_PHASE
Phase found in high-temperature Ni-based alloys, its formation being promoted by the presence of Mo.
157. FSstel-REB6
(Nd,Va)B6 solid solution
(Nd,Va)B6 solid solution
158. FSstel-RHOM
RHOMBOHEDRAL_A7
Solid solution based on Bi,Sb with dissolved Sn
159. FSstel-SiCN
SiC (Si)1(C,N)1 containing minor amount of Nitrogen
SiC (Si)1(C,N)1 containing minor amount of Nitrogen
160. FSstel-SIGM
SIGMA
Can form slowly at lower tempeartures in steels containing high Cr, Mo, or V
161. FSstel-SIV3
SIV3
Si-V binary phase at ca. 75-80 at. % V. Stable to ca. 2192 K.
162. FSstel-SpiS
Thiospinel Polydymite Ni3S4-(Cu3S4)
The solubility of Fe,Cr,Co,Zn in this phase has not been modeled, could be large
163. FSstel-T1
(Nd,Dy)2Fe14B T1 solid solution
(Nd,Dy)2Fe14B T1 solid solution
164. FSstel-T2
T2 Al5(Fe,Ni)2
T2 Al5(Fe,Ni)2
165. FSstel-T5S3
Ti5Sn3 with excess Si
Ti5Sn3 with excess Si
166. FSstel-Tao1
Ti(Co,Ni)3 hP24_P-62m_Co3V
Ti(Co,Ni)3 hP24_P-62m_Co3V
167. FSstel-Tao2
Tao2 terary phase in the Al-Fe-Ti system Al2FeTi-Mn23Th6-D8a
Tao2 terary phase in the Al-Fe-Ti system Al2FeTi-Mn23Th6-D8a
168. FSstel-TAU2
Tau2_Al5Fe2Si2 Tau gamma
Tau2_Al5Fe2Si2 Tau gamma
169. FSstel-TAU4
Tau4_Al3Fe1Si2 Tau delta
Tau4_Al3Fe1Si2 Tau delta
170. FSstel-TAU5
Tau5_Al8Fe2Si1 Tau alpha
Tau5_Al8Fe2Si1 Tau alpha
171. FSstel-TAU6
Tau6_Al5Fe1Si1 Tau beta
Tau6_Al5Fe1Si1 Tau beta
172. FSstel-TAUA
alpha_Al16(Fe,Mn)4Si1(Al,Si)2 Tau alpha
alpha_Al16(Fe,Mn)4Si1(Al,Si)2 Tau alpha
173. FSstel-TAUB
Beta_Al15Si1(Al,Si)4(Fe,Mn)6 Tau Beta
Beta_Al15Si1(Al,Si)4(Fe,Mn)6 Tau Beta
174. FSstel-TC23
C-TiCr2 high temperature gamma-TiCr2 phase
C-TiCr2 high temperature gamma-TiCr2 phase
175. FSstel-TCF
Ti5(Cr,Fe)24 ternrey phase
Ti5(Cr,Fe)24 ternrey phase
176. FSstel-Thta
Theta Ni(Ni,Va,Cu)Si
High-temperature Ni-Si binary phase at 33-40 at.% Si, stable between ca. 1097 to 1565 K.
177. FSstel-TI2N
TI2N
Hexagonal Ti-nitride. Modeled with C present on the N lattice.
178. FSstel-TLaM
T-La(Fe,Si)13 LaFe7(Fe,Si)6
T-La(Fe,Si)13 LaFe7(Fe,Si)6
179. FSstel-TS_T
Ti8(Sn,Si)5 ternary solution
Ti8(Sn,Si)5 ternary solution
180. FSstel-V3C2
V3C2
A vanadium carbide phase stabilized by Fe and Mn in solution.
181. FSstel-VH2
VH2 gamma FCC structure
VH2 gamma FCC structure
182. FSstel-Vill
Villamaninite (Cu,Ni,Co,Fe)S2 solid solution
It is not stable in the Me-S binary systems
183. FSstel-Z_PH
Z_PHASE
Coarse, Cr(V,Nb)N precipitated phase found in 9-12% Cr creep-resistant steels
184. FSstel-Zeta
Al5Ti2 Prototype_Al5Ti2_tP28
(Use [I]-option)
185. FSstel-ZnSH
Wurtzite ; high temperature ZnS-rich (Zn,Fe)S solution
Wurtzite ; high temperature ZnS-rich (Zn,Fe)S solution
186. FSstel-ZnSL
Sphalerite ; low temperature ZnS-rich (Zn,Fe)S solution
Sphalerite ; low temperature ZnS-rich (Zn,Fe)S solution
List of 1014 Compounds
Al | s1-s9,l,g | Al10V | s | Al12Mo | s |
Al12W | s | Al14Ca13 | s | Al2Ca | s1,s2 |
Al2Cu3 | s | Al2Hf | s | Al2Hf3 | s |
Al2O3 | s1-s4,l | Al2Sc | s | Al2W | s |
Al2Y3 | s | Al2Zr | s | Al2Zr3 | s |
Al23V4 | s | Al3Ca8 | s | Al3Cu | s |
Al3Cu2 | s | Al3Hf | s1,s2 | Al3Hf2 | s |
Al3Hf4 | s | Al3Mg | s | Al3Sc | s |
Al3Y | s1,s2 | Al3Zr | s1-s3 | Al3Zr2 | s |
Al3Zr5 | s | Al30Mg23 | s | Al4C3 | s |
Al4C4Si | s | Al4Ca | s | Al4Ce | s |
Al4Mo | s | Al4W | s | Al4Zr5 | s |
Al5Mo | s | Al5W | s | Al63Mo37 | s |
Al7V | s | Al7W3 | s | Al77W23 | s |
Al8C7Si | s | Al8Mo3 | s | Al8V5 | s |
Al9Cu11 | s | AlB12 | s | AlB2 | s |
AlH3 | s | AlHf | s | AlHf2 | s |
AlMo3 | s | AlN | s,g | AlNbNi2 | s |
AlP | s | AlSb | s | AlSc | s |
AlSc2 | s | AlY | s | AlY2 | s |
AlZr | s | AlZr2 | s | AlZr3 | s |
B | s1-s6,l | B2Mo | s | B2Nb | s |
B2O3 | s,l | B2V | s | B2V3 | s |
B3V2 | s | B4C | s | B4Mo | s |
B4V3 | s | B5Mo3 | s | Bi | s,l |
BMo | s | BN | s,l,g | BV | s |
C | s1,s2,l | Ca | s1-s3,l | Ca14Si19 | s |
Ca2Ni7 | s | Ca2Si | s | Ca2Sn | s |
Ca3P2 | s | Ca3Si4 | s | Ca3Zn | s |
Ca5Si3 | s | Ca5Zn3 | s | CaAl2Si2 | s |
CaB6 | s | CaC2 | s1-s4,l | CaNi2 | s |
CaNi3 | s | CaNi5 | s | CaO | s,l |
CaS | s,g | CaSi | s | CaSi2 | s |
CaZn | s | CaZn11 | s | CaZn13 | s |
CaZn2 | s | CaZn3 | s | CaZn5 | s |
Ce | s1-s4,l | Ce2Al | s | Ce2Co17 | s |
Ce2Co7 | s | Ce2Fe17 | s | Ce2Mg17 | s |
Ce2Ni7 | s | Ce2O3 | s,l | Ce2S3 | s |
Ce24Co11 | s | Ce3Al | s1,s2 | Ce3Al11 | s1,s2 |
Ce3Si2 | s | Ce3Si5 | s | Ce5Co19 | s |
Ce5Mg41 | s | Ce5Si3 | s | Ce5Si4 | s |
Ce7Ni3 | s | CeAl | s | CeAl2 | s |
CeAl3 | s1,s2 | CeCo2 | s | CeCo3 | s |
CeCo5 | s | CeFe2 | s | CeMg | s |
CeMg12 | s | CeMg2 | s | CeMg3 | s |
CeNi | s | CeNi2 | s | CeNi3 | s |
CeNi5 | s | CeO2 | s | CeS | s,g |
CeSi | s | CeSi2 | s | CFe6W6 | s |
CFeW3 | s | Co | s1-s5,l | Co11Zr2 | s |
Co16Nb9 | s | Co2Al5 | s | Co2Al9 | s |
Co2B | s | Co2P | s | Co2Sc | s |
Co2Si | s | Co2Zn15 | s | Co23Zr6 | s |
Co3B | s | Co3Mo | s | Co3Nb | s |
Co3Si | s | Co3Ti | s | Co3V | s |
Co3W | s | Co4Al13 | s | Co4N | s |
Co7Nb2 | s | CoAl3 | s | CoB | s |
CoP | s | CoP3 | s | CoSc | s |
CoSc2 | s | CoSc3 | s | CoSi | s |
CoSi2 | s | CoTi2 | s | CoV3 | s |
CoZn13 | s | CoZn7 | s | CoZr | s |
CoZr2 | s | CoZr3 | s | Cr | s1-s5,l |
Cr2Al11 | s | Cr2B | s | Cr2O3 | s,l |
Cr2P | s | Cr2S3 | s | Cr2VC2 | s |
Cr20Cr3C6 | s | Cr3B4 | s | Cr3C2 | s |
Cr3Mn5 | s | Cr3P | s | Cr5B3 | s |
Cr5Si3 | s | Cr7C3 | s | Cr8Ti25Al67 | s |
CrAl7 | s | CrB2 | s | CrB4 | s |
CrP | s | CrP2 | s | CrSi | s |
CrZn13 | s | CrZn17 | s | Cu | s1-s4,l |
Cu10Sn3 | s | Cu10Zr7 | s | Cu12Sn10 | s |
Cu15Si4 | s | Cu19Si6 | s | Cu2S | s1,s2 |
Cu2Sb | s | Cu2Ti | s | Cu3P | s |
Cu3Sb | s | Cu3Sn | s | Cu3Ti2 | s |
Cu33Si7 | s | Cu4MnSn | s | Cu4Sb | s |
Cu4Sn | s | Cu4Ti3 | s | Cu5Zr | s |
Cu51Zr14 | s | Cu6Sb | s | Cu6Sn5 | s |
Cu7Sb2 | s | Cu8Zr3 | s | Cu9Si2 | s |
CuP2 | s | CuS | s | CuTi2 | s |
CuZr | s | CuZr2 | s | CV | s |
Dy | s1-s4,l | Dy10Fe36B36 | s | Dy12Co7 | s |
Dy2Al | s | Dy2Co17 | s | Dy2Co7 | s |
Dy2Fe14B | s | Dy2Fe17 | s | Dy2Ni17 | s |
Dy2Ni7 | s | Dy3Al2 | s | Dy3Co | s |
Dy3Ni | s | Dy3Ni2 | s | Dy3Si4 | s |
Dy3Si5 | s1,s2 | Dy4Co3 | s | Dy5Fe2B6 | s |
Dy5Mg24 | s | Dy5Si3 | s | Dy5Si4 | s |
Dy6Fe23 | s | Dy6Mn23 | s | Dy9Pr11 | s |
DyAl | s | DyAl2 | s | DyAl3 | s1,s2 |
DyB12 | s | DyB2 | s | DyB4 | s |
DyB6 | s | DyB66 | s | DyCo2 | s |
DyCo3 | s | DyCo5 | s | DyFe2 | s |
DyFe3 | s | DyMg | s | DyMg2 | s |
DyMg3 | s | DyMn12 | s | DyMn2 | s |
DyNd | s | DyNi | s | DyNi2 | s |
DyNi3 | s | DyNi4 | s | DyNi5 | s |
DySi | s | DySi2 | s1,s2 | Er | s1-s4,l |
Er12Co7 | s | Er2Al | s | Er2Co17 | s |
Er2Co7 | s | Er2Fe17 | s | Er2Ni17 | s |
Er2Ni7 | s | Er3Al2 | s | Er3Co | s |
Er3Ni | s | Er3Ni12 | s | Er3Ni2 | s |
Er3Si5 | s1,s2 | Er4Co3 | s | Er5Si3 | s |
Er5Si4 | s | Er6Fe23 | s | Er6Mn23 | s |
ErAl | s | ErAl2 | s | ErAl3 | s |
ErCo2 | s | ErCo3 | s | ErCo5 | s |
ErFe2 | s | ErFe3 | s | ErMn12 | s |
ErMn2 | s | ErNi | s | ErNi2 | s |
ErNi3 | s | ErNi4 | s | ErNi5 | s |
ErSi | s | Eu3Si5 | s | Eu5Si3 | s |
Eu5Si4 | s | Eu50Si87 | s | Eu8Si11 | s |
EuAl | s | EuAl2 | s | EuAl4 | s |
EuSi | s | Fe | s1,s2,l | Fe10S11 | s |
Fe11S12 | s | Fe2Al5 | s | Fe2B | s |
Fe2O3 | s1-s3 | Fe2P | s | Fe2Sc | s1,s2 |
Fe2Si | s | Fe2SiAl2 | s | Fe2W | s |
Fe3C | s1,s2 | Fe3O4 | s1-s4,l | Fe3P | s1,s2 |
Fe3Si7 | s | Fe3Sn2 | s | Fe5Si3 | s |
Fe5Sn3 | s | Fe6Sc29 | s | Fe7S8 | s |
Fe9S10 | s | Fe9Sc5 | s | FeAl2 | s |
FeB | s | FeCr2O4 | s | FeO | s,l,g |
FeP | s | FeP2 | s | FeS | s |
FeS2 | s | FeSb2 | s | FeSi | s |
FeSi2 | s | FeSi4P4 | s | FeSiAl2 | s |
FeSn | s | FeSn2 | s | FeTi | s |
FeTi2O5 | s | FeTi3Al8 | s | Gd | s1-s4,l |
Gd12Co7 | s | Gd2Al | s | Gd2Co17 | s |
Gd2Co7 | s | Gd2Fe17 | s | Gd2Ni17 | s |
Gd2Ni7 | s | Gd3Al2 | s | Gd3Co | s |
Gd3Ni | s | Gd3Ni2 | s | Gd3Si5 | s1,s2 |
Gd4Co3 | s | Gd5Si3 | s | Gd5Si4 | s1,s2 |
Gd6Fe23 | s | Gd6Mn23 | s | GdAl | s |
GdAl2 | s | GdAl3 | s | GdCo2 | s |
GdCo3 | s | GdCo5 | s | GdFe2 | s |
GdFe3 | s | GdMn12 | s | GdMn2 | s |
GdNi | s | GdNi2 | s | GdNi3 | s |
GdNi5 | s | GdSi | s | GdSi2 | s1,s2 |
H | s,l | H2 | g | Hf | s1-s3,l |
Hf2Fe | s | Hf2Ni7 | s | Hf2Si | s |
Hf3Ni7 | s | Hf3Si2 | s | Hf5Si3 | s1,s2 |
Hf5Si4 | s | Hf7Ni10 | s | Hf8Ni21 | s |
Hf9Ni11 | s | HfNi | s1,s2 | HfNi3 | s1,s2 |
HfNi5 | s | HfSi | s | HfSi2 | s |
HfV2 | s | Ho | s1-s3,l | Ho12Co7 | s |
Ho2Al | s | Ho2Co11 | s | Ho2Co17 | s |
Ho2Co7 | s | Ho2Fe17 | s | Ho2Ni17 | s |
Ho2Ni7 | s | Ho3Al2 | s | Ho3Co | s |
Ho3Ni | s | Ho3Ni2 | s | Ho3Si4 | s |
Ho3Si5 | s1,s2 | Ho4Co3 | s | Ho5Si3 | s |
Ho5Si4 | s | Ho5Si9 | s1,s2 | Ho6Fe23 | s |
Ho6Mn23 | s | HoAl | s | HoAl2 | s |
HoAl3 | s | HoCo2 | s | HoCo3 | s |
HoFe2 | s | HoFe3 | s | HoMn12 | s |
HoMn2 | s | HoNi | s | HoNi2 | s |
HoNi3 | s | HoNi5 | s | HoSi | s |
La | s1-s4,l | La2Co3 | s | La2Co7 | s |
La2Fe2Si4 | s | La2Ni3 | s | La2Ni7 | s |
La22Al53 | s | La27Co23 | s | La3Al | s |
La3Al11 | s1,s2 | La3Co | s | La3Ni | s |
La3Si2 | s | La3Si5 | s | La5Co19 | s |
La5Si3 | s | La5Si4 | s | La7Ni16 | s |
La7Ni3 | s | LaAl | s | LaAl2 | s |
LaAl3 | s | LaCo13 | s | LaCo5 | s |
LaFe2Si2 | s | LaFeSi | s | LaFeSi2 | s |
LaNi | s | LaNi3 | s | LaNi5 | s |
LaSi | s | LaSi2 | s | Lu2Al | s |
Lu2Fe17 | s | Lu3Al2 | s | Lu3Si5 | s |
Lu5Si3 | s | Lu5Si4 | s | Lu6Fe23 | s |
Lu6Mn23 | s | LuAl | s | LuAl2 | s |
LuAl3 | s | LuFe2 | s | LuFe3 | s |
LuMn2 | s | LuMn5 | s | LuSi | s |
Mg | s1-s7,l | Mg12Zn13 | s | Mg2Ca | s1,s2 |
Mg2Cu | s1,s2 | Mg2Si | s | Mg2Sn | s |
Mg2Zn | s | Mg2Zn11 | s | Mg2Zn3 | s |
Mg3N2 | s1-s3 | Mg3P2 | s | Mg51Zn20 | s |
MgCo2 | s | MgH2 | s | MgN | g |
MgO | s,l | MgS | s,g | MgZn2 | s1,s2 |
Mn | s1-s6,l | Mn11Si19 | s | Mn19Sn6 | s |
Mn2B | s | Mn2Ni | s | Mn2P | s |
Mn2Sc | s | Mn2Sn | s | Mn2Ti | s |
Mn2Ti2 | s | Mn2Zr | s | Mn23Al99 | s |
Mn23C6 | s | Mn23Sc6 | s | Mn3B4 | s |
Mn3C | s | Mn3N2 | s | Mn3Ni | s |
Mn3P | s | Mn3P2 | s | Mn3Si | s |
Mn3SiAl2 | s | Mn3Ti | s | Mn4Al11 | s |
Mn5C2 | s | Mn5Si3 | s | Mn5SiC | s |
Mn6N5 | s | Mn6Si | s | Mn7C3 | s |
Mn7Mo6 | s | Mn7Nb6 | s | Mn8Si2C | s |
Mn9Si2 | s | Mn9Ti2 | s | MnAl12 | s |
MnAl4 | s | MnAl6 | s | MnB | s |
MnB2 | s | MnB4 | s | MnNi | s |
MnNi2 | s | MnNi3 | s | MnO | s,l |
MnP | s | MnP3 | s | MnS | s |
MnS2 | s | MnSc4 | s | MnSi | s |
MnSiN2 | s | MnSn2 | s | MnTi | s |
Mo | s1-s3,l | Mo2B | s | Mo3P | s |
Mo3Si | s | Mo5Si3 | s | MoC | s |
MoNbN | s | MoNi3 | s | MoNi4 | s |
MoP | s | MoS2 | s,l | MoSi2 | s1,s2,l |
MoZn22 | s | MoZn7 | s | N | s1-s7,l |
N2 | g | N4Si3 | s | Nb | s,l |
Nb2B | s | Nb2O5 | s,l | Nb3B2 | s |
Nb3B4 | s | NbB | s | NbO2 | s1-s3,l,g |
Nd | s1-s3,l | Nd10Fe36B36 | s | Nd2Al | s |
Nd2B5 | s | Nd2Co17 | s | Nd2Co3 | s |
Nd2Co7 | s | Nd2Cu7 | s | Nd2Fe14B | s |
Nd2Fe17 | s | Nd2Mn17 | s | Nd2Ni17 | s |
Nd2Ni7 | s | Nd2Si3 | s1,s2 | Nd3Al | s |
Nd3Al11 | s1,s2 | Nd3Co | s | Nd3Ni | s |
Nd3Si4 | s | Nd4Co3 | s | Nd5Co19 | s |
Nd5Co2 | s | Nd5Fe17 | s | Nd5Fe2B6 | s |
Nd5Mg41 | s | Nd5Si3 | s | Nd5Si4 | s |
Nd5Si9 | s1,s2 | Nd6Mn23 | s | Nd7Ni3 | s |
NdAl | s | NdAl2 | s | NdAl3 | s |
NdB4 | s | NdB6 | s | NdB66 | s |
NdCo2 | s | NdCo3 | s | NdCo5 | s |
NdCu | s | NdCu2 | s | NdCu4 | s |
NdCu5 | s | NdCu6 | s | NdMg | s |
NdMg2 | s | NdMg3 | s | NdMn2 | s |
NdNi | s | NdNi2 | s | NdNi3 | s |
NdNi5 | s | NdSi | s | Ni | s1-s5,l |
Ni10B7 | s | Ni12P5 | s1,s2 | Ni2B | s |
Ni2Cr | s | Ni2Mg | s | Ni2P | s |
Ni2Sc | s | Ni2Si | s | Ni2V | s |
Ni2V7 | s | Ni2Y | s | Ni2Y3 | s |
Ni23Fe5Al72 | s | Ni3B | s | Ni3Cr15Al82 | s |
Ni3P | s | Ni3S2 | s | Ni3S4 | s |
Ni3Si | s1-s3 | Ni3Si2 | s | Ni3V | s |
Ni3Y | s | Ni4W | s | Ni4Y | s |
Ni5Al3 | s | Ni5P2 | s1,s2 | Ni5P4 | s |
Ni5Sc | s | Ni5Si2 | s | Ni5Zr4 | s |
Ni7S6 | s | Ni7Sc18 | s | Ni7Sc2 | s |
Ni7Y2 | s | Ni7Zr2 | s | Ni8Y | s |
Ni8Zr3 | s | Ni9B7 | s | Ni9Cr11Al80 | s |
Ni9S8 | s | NiAl3 | s | NiB | s |
NiMg2 | s | NiP2 | s | NiP3 | s |
NiS | s | NiS2 | s | NiSc | s |
NiSi | s | NiSi2 | s1,s2 | NiTi2 | s |
NiW | s | NiW2 | s | NiY | s |
NiY3 | s | NiZn8 | s | NiZr | s |
NiZr2 | s | NTi2 | s | NZr | s,l |
O2 | g | P | s1-s6,l,g | P2 | g |
P4 | g | Pb | s1-s7,l | Pb2Zr | s |
Pb3Zr5 | s | PbS | s | PbZr4 | s |
Pr | s1-s4,l | Pr2Al | s | Pr2B5 | s |
Pr2Co17 | s | Pr2Co7 | s | Pr2Fe17 | s |
Pr2Ni7 | s | Pr3Al | s1,s2 | Pr3Al11 | s1,s2 |
Pr3Co | s | Pr3Ni | s | Pr3Si4 | s |
Pr4Co3 | s | Pr5Co19 | s | Pr5Co2 | s |
Pr5Mg41 | s | Pr5Si3 | s1,s2 | Pr5Si4 | s1,s2 |
Pr5Si9 | s1,s2 | Pr6Mn23 | s | Pr7Ni3 | s |
PrAl | s | PrAl2 | s | PrAl3 | s |
PrB4 | s | PrB6 | s | PrCo2 | s |
PrCo3 | s | PrCo5 | s | PrMg | s |
PrMg12 | s | PrMg2 | s | PrMg3 | s |
PrNi | s | PrNi2 | s | PrNi3 | s |
PrNi5 | s | PrSi | s | S | s1,s2 |
Sb | s1,s2,l | Sb2Sn3 | s | Sc | s1-s4,l |
Sc2Si3 | s | Sc5Si3 | s | Sc5Si4 | s1,s2 |
ScSi | s | Si | s1-s7,l | Si2Ta | s |
Si2V | s | Si2W | s | Si2Zr | s |
Si2Zr3 | s | Si3Ta5 | s | Si3V5 | s |
Si3W5 | s | Si3Zr5 | s | Si4Zr5 | s |
Si5V6 | s | SiC | s1,s2,g | SiO2 | s1-s8,l |
SiP | s | SiP2 | s | SiTa2 | s |
SiTa3 | s | SiZr | s | SiZr2 | s |
SiZr3 | s | Sm | s1-s4,l | Sm2Al | s |
Sm2Co17 | s | Sm2Co7 | s | Sm2Fe17 | s |
Sm2Ni17 | s | Sm2Ni7 | s | Sm3Al11 | s |
Sm3Co | s | Sm3Ni | s | Sm3Ni2 | s |
Sm3Si5 | s | Sm5Co19 | s | Sm5Co2 | s |
Sm5Ni19 | s | Sm5Si3 | s | Sm5Si4 | s1,s2 |
Sm6Mn23 | s | Sm7Ni3 | s | SmAl | s |
SmAl2 | s | SmAl3 | s | SmCo2 | s |
SmCo3 | s | SmCo5 | s | SmFe2 | s |
SmFe3 | s | SmMn2 | s | SmNi | s |
SmNi2 | s | SmNi3 | s | SmNi5 | s |
SmSi | s | SmSi2 | s1,s2 | Sn | s1-s3,l |
Sn2S3 | s | Sn2V | s | Sn2Zr | s |
Sn20Ca31 | s | Sn21V79 | s | Sn23Ca36 | s |
Sn3Ca | s | Sn3Ca5 | s | Sn3P4 | s |
Sn3Ti2 | s | Sn3Ti5 | s | Sn3Zr5 | s |
Sn4Ni3 | s | Sn4P3 | s | Sn5Ti6 | s1,s2 |
Sn6Ca7 | s | SnCa | s | SnP3 | s |
SnS | s1,s2 | SnS2 | s | SnTi2 | s |
SnTi3 | s | SnZr4 | s | Ta | s,l |
TaV2 | s | Tb | s1-s3,l | Tb11Pr9 | s |
Tb2Al | s | Tb2Fe17 | s | Tb2Nd3 | s |
Tb2Ni17 | s | Tb2Ni7 | s | Tb3Al2 | s |
Tb3Ni | s | Tb3Ni2 | s | Tb3Si5 | s |
Tb5Mg24 | s | Tb5Si3 | s | Tb5Si4 | s |
Tb6Fe23 | s | Tb6Mn23 | s | TbAl | s |
TbAl2 | s | TbAl3 | s | TbB12 | s |
TbB2 | s | TbB4 | s | TbB6 | s |
TbB66 | s | TbFe2 | s | TbFe3 | s |
TbMg | s | TbMg2 | s | TbMg3 | s |
TbMn12 | s | TbMn2 | s | TbNi | s |
TbNi2 | s | TbNi3 | s | TbNi5 | s |
TbSi | s | TbSi2 | s | Ti | s1-s7,l |
Ti2Mn | s | Ti2O3 | s1,s2,l | Ti2Zn | s |
Ti3B4 | s | Ti3O5 | s1,s2 | Ti3Si | s |
Ti4N3 | s | Ti5Si3 | s | Ti5Si4 | s |
TiB | s | TiB2 | s | TiO2 | s1,s2,l |
TiSi | s | TiSi2 | s | TiZn | s |
TiZn10 | s | TiZn15 | s | TiZn2 | s |
TiZn3 | s | TiZn5 | s | Tm2Al | s |
Tm2Fe17 | s | Tm3Al2 | s | Tm3Si5 | s |
Tm5Si3 | s | Tm5Si4 | s | Tm6Fe23 | s |
Tm6Mn23 | s | TmAl | s | TmAl2 | s |
TmAl3 | s | TmFe2 | s | TmFe3 | s |
TmMn12 | s | TmMn2 | s | TmSi | s |
V | s1-s5,l | V2O3 | s,l | V2Zr | s |
V3C2 | s1,s2 | V4Zn5 | s | VO | s,l,g |
VZn16 | s | VZn3 | s | W | s1-s3,l |
W2B | s | W2B9 | s | W2Hf | s |
W2Hf7B4 | s | W2Zr | s | W7B14 | s |
WB | s1,s2 | WB2 | s | WC | s |
Y | s1-s4,l | Y13Zn58 | s | Y2Co17 | s |
Y2Co3 | s | Y2Co7 | s | Y2Fe17 | s |
Y2Zn17 | s1,s2 | Y3Co | s | Y3Si5 | s |
Y3Zn11 | s | Y3Zn22 | s | Y4Co3 | s |
Y5Si3 | s | Y5Si4 | s | Y6Co7 | s |
Y6Fe23 | s | Y6Mn23 | s | Y8Co5 | s |
YAl2 | s | Yb3Si5 | s | Yb5Si3 | s |
Yb5Si4 | s | Yb50Si87 | s | Yb8Si11 | s |
YbAl2 | s | YbAl3 | s | YbSi | s |
YCo | s | YCo2 | s | YCo3 | s |
YCo5 | s | YFe2 | s | YFe3 | s |
YMn12 | s | YMn2 | s | YNi5 | s |
YSi | s | YSi2 | s1,s2 | YZn | s |
YZn11 | s | YZn12 | s | YZn2 | s1,s2 |
YZn3 | s | YZn5 | s | Zn | s1-s9,l |
Zn2Zr | s | Zn2Zr3 | s | Zn22Zr | s |
Zn3P2 | s1,s2 | Zn3Sb2 | s | Zn3Zr | s1,s2 |
Zn39Zr5 | s | Zn4Sb3 | s1,s2 | Zn5Sb3 | s |
Zn9Mn | s | ZnP2 | s1,s2 | ZnS | s1,s2 |
ZnSb | s | ZnZr | s | ZnZr2 | s |
Zr | s1-s8,l | Zr3Ni4 | s | ZrB | s |
ZrB12 | s | ZrB2 | s | ZrFe2Zn20 | s |
ZrNi3 | s | ZrNi5 | s | ZrO2 | s1-s3,l |