List of 136 Solutions and 448 Compounds in FSstel


List of 136 Solutions

1. FSstel-A11C
Al11(Cr,Mn)2

2. FSstel-A13F
Al13Fe4 (Al)32(Fe,Ni,Co)12(Al,Si,Va,Zn)7

3. FSstel-A2F1
Al2Fe Al2(Fe,Ni,Co)

4. FSstel-A3M2
Beta_Al3Mg2
This is the Al3Mg2

5. FSstel-A3N1
Al3Ni Al3(Fe,Ni)

6. FSstel-A3N2
Al3Ni2
Al-Ni phase at ca. 60-65 at.% Al. Stable to 1406 K

7. FSstel-A3N5
Al3Ni5 Al3(Fe,Ni)5

8. FSstel-A3NB
AL3NB
Phase at 75 at.% Al in the Al-Nb system

9. FSstel-A4C
Al4Cr rich phase containing limited amount of Cu, Mn, Si
(Al,Cu,Si,Va)4(Cr,Mn)

10. FSstel-A5C2
Al5Co2 Al5(Fe,Co)2

11. FSstel-A5F2
Al5Fe2 (Al,Si)5(Fe,Ni,Co)2

12. FSstel-A7CR
Al7(Cr,Mn)

13. FSstel-A8F5
Al8Fe5 D8_2 (Al,Fe)8(Al,Fe)5
(use [I]-option)

14. FSstel-A9C2
Al9Co2 Al9(Fe,Co)2

15. FSstel-AC2
AlCr2 containing limited amount of Mn and Si
(Al,Cr,Mn,Si)(Al,Cr,Mn)2

16. FSstel-ACMH
H-Al8(Cr,Mn)5 gamma-H Al8Cr5-Al8Mn5
high temperature Al8Cr5-Al8Mn5 phase

17. FSstel-ACML
L-Al8(Cr,Mn)5 Gamma D810
low temperature Al8Cr5-Al8Mn5 phase

18. FSstel-ACN
AlCrNi ternary phase
(Al,Cr,Ni)8(Al,Cr,Ni)2(Al,Cr,Ni)

19. FSstel-AL11
HTAl11Mn4-oP156 (Al,Mn)29(Mn)10

20. FSstel-ALC1
AlCu_EPSILON
High-temperature binary Al-Cu phase (ca.866-1100 K)

21. FSstel-ALC2
AlCu_ETA
Exists ca. 50 at. % Cu. Stable to ca. 920 K

22. FSstel-ALC3
AlCu_THETA
Exists ca. 31-33 at.% Cu. Stable to ca. 872 K.

23. FSstel-ALMO
AlMo [I]
Al-Mo phase between ca. 48 & 54 at.% Mo. Stable from 1470 to 1720 C. Use I-option

24. FSstel-AlP
AlP (Al,Fe)1(P)1
(use [I]-option)

25. FSstel-B2M
B2M
(Hf,Ti)B2 in the system B-Hf-Ti

26. FSstel-B4M3
B4M3
(Hf,Ti)3B4 at 57 at.% B, stable to 2473 K, system B-Hf-Ti

27. FSstel-BCC
BCC_A2 Prototype_W-A2 cI2 Im-3m (229)
(use [I]-option) C, N and B interstitial

28. FSstel-BCC2
BCC_B2!BCC_A2 [I]
Ordered BCC phase in Fe-Al, Fe-Si, ..use I option.

29. FSstel-BCT5
BCT_A5
Solid solution based on Sn with solubility for Al,Bi,Pb,Sb,Si,Ti and Zn.

30. FSstel-BM
BM
(Hf,Ti)B in the system B-Hf-Ti

31. FSstel-C3S
Cr3Si
(Cr,Si,Fe)3(Cr,Si,Al)

32. FSstel-CBCC
CBCC_A12
This is the alpha-Mn phase. Don't use if Mn is not in the system.

33. FSstel-CEME
CEMENTITE
"Fe3C" with dissolved Co,Cr,Mn,Mo,Nb,Ni,V and W. N also modeled on the C lattice.

34. FSstel-CHIA
CHI_A12
Found only in Fe-Cr based alloys with Mo and with W at certain concentrations - not present in the binaries

35. FSstel-Cove
Covellite CuS-(FeS) solid solution with CuS as major component

36. FSstel-Cr2B
Cr2B
The (Cr,Fe)2B phase with limited solublity of Fe2B.

37. FSstel-CS2
CrSi2
(Cr,Si)(Al,Cr,Si)2

38. FSstel-Cu4T
Cu4Ti
Cu-Ti binary phase with small range of stoichiometry. Stable to 1158 K.

39. FSstel-CUB
CUB_A13
This is the beta-Mn phase. Don't use if Mn is not in the system.

40. 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)

41. FSstel-CuTi
CuTi
gamma-CuTi

42. FSstel-CUZN
CuZn_GAMMA
Phase exists between approx. 30 & 43 at.% Cu. Stable to ca. 1123 K.

43. FSstel-D019
AlTi3_D019 [I]
Al-Ti phase (ca. 60 to 78 at.% Ti) with solubility for Mo,Nb,Ta,Ti,V and W

44. FSstel-D82_
D82_FEZN_GAMMA

45. FSstel-D88_
D88_M5Si3
Ti-Si binary phase

46. FSstel-Dgnt
Digenite Cu(2-x)S-(FeS-NiS) Digenite/Bornite solid solution
Possible miscibility gap (use I-optiion)

47. FSstel-DIAM
Diamond_A4 Silicon solid solution
dissolving limited amount of Fe, P, C, Sn

48. FSstel-EpsH
Al3Ti-h Prototype_Al3Ti-h_tI8
(Use [I]-option)

49. FSstel-EPSI
EPSILON_FeSb
Fe-Sb binary phase, stoichiometric range ca. 40-47 at.% Sb. Stable to ca. 1292 K.

50. FSstel-EpsL
Al3Ti-l Prototype_Al3Ti-l_tI32
(Use [I]-option)

51. FSstel-Eta
Al2Ti1 Prototype_HfGa2_tI24
(Use [I]-option)

52. 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

53. FSstel-Fe2A
Fe2Al5(Zn,Va)3

54. FSstel-FeSi
FeSi (Fe)1(Si,P)1
(use [I]-option)

55. FSstel-FEZ1
FEZN4_GAMMA1

56. FSstel-FEZ2
FEZN_DELTA

57. FSstel-FEZ3
FEZN_ZETA

58. FSstel-FS2H
Fe3Si7 (Fe)3(Si,Al)7 High Temperature

59. FSstel-FS2L
Fe1Si2 (Fe)1(Si,Al)2 Low Temperature

60. FSstel-FZR2
FEZR2_C16
Fe-Zr binary phase at ca. 66 at.% Zr. Stable to 1223 K.

61. FSstel-FZR3
FEZR3_E1A
Fe-Zr binary phase at ca.75 at.% Zr. Stable to 1197 K.

62. FSstel-GAAM
Gamma_Al12Mg17
Gamma_Al12Mg17

63. FSstel-GAM3
GAMMA_DO3
High-temperature Cu-Sn binary phase, exists at ca. 15-28 at.% Sn. Stable between ca. 790 to 1026 K.

64. FSstel-GamH
Gamma_H_AlCu
High-temperature Al-Cu binary phase at 62-69 at.% Cu. Stable between ca. 1073 and 1273 K.

65. FSstel-GamL
Gamma_D83_Al5Cu8
Al-Cu phase between ca. 62-69 at. Cu. Stable to ca. 1153 K.

66. FSstel-Gamm
(Al,Fe,Zn)1(Zn)3

67. FSstel-HCP
HCP_A3 [I]
Hexagonal metallic structure with C and N.

68. FSstel-HCP2
HCP_ZN
Solid soln. based on Zn with solubility for Ag,Al,Cd,Cr,Cu,Fe,Ga,Ge,In,Mg,Si,Sn.

69. 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.

70. FSstel-KAPP
Kappa-Carbide (Fe,Mn)3(Fe,Mn,Al)(C,Va)
(use [I]-option)

71. FSstel-KSIC
KSI_CARBIDE
"Me3C" carbide with significant content of Cr,Fe and Mo

72. FSstel-L10
AlTi Prototype_AuCu
(Use [I]-option)

73. FSstel-L12
L12!FCC_A1
(Use [I]-option)

74. FSstel-LACN
CONB_lambda phase
Phase around the composition NbCo2 in the Co-Nb system. Stable to ca. 1480 C.

75. FSstel-LAV1
LAVES_C14 [I]
A2B phase, present in e.g. Cr-Ti,Mg-Zn,Mn-Ti,Fe-Nb,Fe-Ti,Fe-Mo.

76. 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

77. FSstel-LAV4
LAVES_C36 [I]
A2B phase in e.g. Cr-Zr, Mg-Ni, Hf-Mo, Co-Ti

78. FSstel-Liqu
LIQUID [I]
Liquid steel phase

79. FSstel-M11S
(Mn)11(Si,Al)19

80. FSstel-M1S1
Me1Si1 (Fe,Mn,Cr)(Si)
Silicide phase found in Cr,Mn-containing steel

81. FSstel-M1T2
NiTi2 and CoTi2 phases

82. FSstel-M23C
M23C6
Carbide phase found in Cr,Mn-containing steel.

83. FSstel-M2B
M2B_TETR
The (Fe,Mo,Mn,Ni)2B phase with limited Cr2B solubility

84. FSstel-M3C2
M3C2
Carbide phase sometimes found in Cr-containing steel.

85. FSstel-M3S1
Me3Si1 (Fe,Mn)3(Si)
Silicide phase found in Mn,Si-containing steel

86. FSstel-M5C2
M5C2 (Fe,Mn)5(C,N)2
An iron carbonitride phase stabilized at certain compositions by Mn and N in solution

87. FSstel-M5S3
M5Si3 (Fe,Mn,Cr)5(Si)3
Silicide phase found in Cr,Mn,Si-containing steel

88. FSstel-M5SC
M5Si1C1 (Fe,Mn)5Si1C1

89. FSstel-M6C
M6C
This carbide can form in steels with higher Mo- and/or W-content

90. FSstel-M7C3
M7C3
Carbide phase found in Cr,Mn-containing steels.

91. FSstel-M8SC
M8Si2C1 (Fe,Mn)8Si2C1

92. FSstel-MC_E
MC_ETA
A Mo,W-carbide

93. FSstel-MC_S
MC_SHP
The WC carbide with fixed stoichiometry

94. FSstel-Me2P
Me2P (Fe,Mn,Al,Cr,Ni)2(P,Si)1
(use [I]-option)

95. FSstel-Me3P
Me3P (Fe,Mn,Al,Cr,Ni,Cu,Mo)3(P,Si)
(use [I]-option)

96. FSstel-Me4N
Me4N [I]
(Fe,Mn)4N phase with dissolved Co,Ni. C also dissolved in the N lattice.

97. FSstel-MeP
MeP (Fe,Mn,Cr)1(P,Si)1
(use [I]-option)

98. 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

99. FSstel-Mill
NiS-(CuS) Millerite low-T solid solution dilute in CuS

100. FSstel-MONI
MONI_DELTA
Stable to at. 1635 K.

101. FSstel-MONO
Monoxide
Oxide phase in FeO-MnO system.

102. 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)

103. FSstel-MUCN
CONB-MU Phase
Phase around the composition Nb6Co7 in the Co-Nb system. Stable to ca. 1402 C.

104. FSstel-MUHK
MUHK_PHASE
Co-Mo binary phase at ca. 40-49 at.% Mo. Stable to 1783 K.

105. FSstel-MU_P
MU_PHASE
Sometimes found in Mo,Nb,Ni-containing steels at lower temperatures.

106. FSstel-Ni3M
Ni3[Ta,Mo]
Phase at ca. 75 at.% Ni, exists in Mo-Ni and Ni-Ta.

107. FSstel-Ni3T
Ni3Ti hP16_P63/mmc dissolvind Co and Fe
(Ni,Ti,Co,Fe)3(Ni,Ti,Co,Fe)1

108. FSstel-NIHF
NiHf2
Ni-Hf solid solution at 33 at-% Ni

109. FSstel-NIT1
NiTa
NiTa phase stable to 1844 K.

110. FSstel-NiT2
NiTa2
Ni-Ta binary phase at ca. 66-70 at.% Ta. Stable to ca. 2059 K.

111. FSstel-Pent
Pentlandite solid solution (Fe9S8-Ni9S8-Cu9S8)
The solubility of Co9S8 in this phase has not been modeled, but could be large

112. FSstel-PI
PI Cr-rich nitride containing Fe and Ni.

113. FSstel-PYRR
Pyrrhotite Non-stoichiometric high-T solid solution FeS-NiS-CrS-CoS(-CuS-MnS)
Possible miscibility gap (Use I option)

114. FSstel-P_PH
P_PHASE
Phase found in high-temperature Ni-based alloys containing Mo.

115. FSstel-RHOM
RHOMBOHEDRAL_A7
Solid solution based on Bi,Sb with dissolved Sn

116. FSstel-R_PH
R_PHASE
Phase found in high-temperature Ni-based alloys, its formation being promoted by the presence of Mo.

117. FSstel-SIGM
SIGMA
Can form slowly at lower tempeartures in steels containing high Cr, Mo, or V

118. FSstel-SIV3
SIV3
Si-V binary phase at ca. 75-80 at. % V. Stable to ca. 2192 K.

119. FSstel-SpiS
Thiospinel Polydymite Ni3S4-(Cu3S4)
The solubility of Fe,Cr,Co,Zn in this phase has not been modeled, could be large

120. FSstel-T2
T2 Al5(Fe,Ni)2

121. FSstel-Tao1
Ti(Co,Ni)3 hP24_P-62m_Co3V

122. FSstel-Tao2
Tao2 terary phase in the Al-Fe-Ti system Al2FeTi-Mn23Th6-D8a

123. FSstel-TAU2
Tau2_Al5Fe2Si2 Tau gamma

124. FSstel-TAU4
Tau4_Al3Fe1Si2 Tau delta

125. FSstel-TAU5
Tau5_Al8Fe2Si1 Tau alpha

126. FSstel-TAU6
Tau6_Al5Fe1Si1 Tau beta

127. FSstel-TAUA
alpha_Al16(Fe,Mn)4Si1(Al,Si)2 Tau alpha

128. FSstel-TAUB
Beta_Al15Si1(Al,Si)4(Fe,Mn)6 Tau Beta

129. FSstel-TC23
C-TiCr2 high temperature gamma-TiCr2 phase

130. FSstel-TCF
Ti5(Cr,Fe)24 ternrey phase

131. 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.

132. FSstel-TI2N
TI2N
Hexagonal Ti-nitride. Modeled with C present on the N lattice.

133. FSstel-V3C2
V3C2
A vanadium carbide phase stabilized by Fe and Mn in solution.

134. FSstel-Vill
Villamaninite (Cu,Ni,Co,Fe)S2 solid solution
It is not stable in the Me-S binary systems

135. FSstel-Zeta
Al5Ti2 Prototype_Al5Ti2_tP28
(Use [I]-option)

136. FSstel-Z_PH
Z_PHASE
Coarse, Cr(V,Nb)N precipitated phase found in 9-12% Cr creep-resistant steels


List of 448 Compounds

Als1-s9,l,gAl10VsAl12Mos
Al12WsAl14Ca13sAl2Cas1,s2
Al2Cu3sAl2O3s1-s4,lAl2Ws
Al2ZrsAl2Zr3sAl23V4s
Al3Ca8sAl3CusAl3Cu2s
Al3MgsAl3Zrs1-s3Al3Zr2s
Al3Zr5sAl30Mg23sAl4C3s
Al4C4SisAl4CasAl4Ces
Al4MosAl4WsAl4Zr5s
Al5MosAl5WsAl63Mo37s
Al7VsAl7W3sAl77W23s
Al8C7SisAl8Mo3sAl8V5s
Al9Cu11sAlB12sAlB2s
AlMo3sAlNs,gAlPs
AlSbsAlZrsAlZr2s
AlZr3sBs1-s6,lB2Mos
B2NbsB2O3s,lB2Vs
B2V3sB3V2sB4Cs
B4MosB4V3sB5Mo3s
Bis,lBMosBNs,l,g
BVsCs1,s2,lCas1-s3,l
Ca14Si19sCa2SisCa3Si4s
Ca3ZnsCa5Si3sCa5Zn3s
CaAl2Si2sCaB6sCaOs,l
CaSs,gCaSisCaSi2s
CaZnsCaZn11sCaZn13s
CaZn2sCaZn3sCaZn5s
Ces1-s4,lCe2AlsCe2Fe17s
Ce2O3s,lCe2S3sCe3Als1,s2
Ce3Al11s1,s2Ce3Si2sCe3Si5s
Ce5Si3sCe5Si4sCeAls
CeAl2sCeAl3s1,s2CeFe2s
CeO2sCeSs,gCeSis
CeSi2sCFe6W6sCFeW3s
Cos1-s5,lCo16Nb9sCo2Al5s
Co2Al9sCo2BsCo2Sis
Co3BsCo3MosCo3Nbs
Co3SisCo3TisCo3Ws
Co4Al13sCo4NsCo7Nb2s
CoAl3sCoBsCoSis
CoSi2sCoTi2sCrs1-s5,l
Cr2Al11sCr2BsCr2O3s,l
Cr2PsCr2S3sCr20Cr3C6s
Cr3B4sCr3C2sCr3Mn5s
Cr3PsCr5B3sCr5Si3s
Cr7C3sCr8Ti25Al67sCrAl7s
CrB2sCrB4sCrPs
CrP2sCrSisCrZn13s
CrZn17sCus1-s4,lCu10Sn3s
Cu10Zr7sCu12Sn10sCu15Si4s
Cu19Si6sCu2Ss1,s2Cu2Sbs
Cu2TisCu3PsCu3Sbs
Cu3SnsCu3Ti2sCu33Si7s
Cu4SbsCu4SnsCu4Ti3s
Cu5ZrsCu51Zr14sCu6Sbs
Cu6Sn5sCu7Sb2sCu8Zr3s
Cu9Si2sCuP2sCuSs
CuTi2sCuZrsCuZr2s
CVsFes1,s2,lFe10S11s
Fe11S12sFe2Al5sFe2Bs
Fe2O3s1-s3Fe2PsFe2Sis
Fe2SiAl2sFe2TasFe2Tis
Fe2WsFe3Cs1,s2Fe3O4s1-s4,l
Fe3Ps1,s2Fe3Si7sFe3Sn2s
Fe4ZrsFe5Si3sFe5Sn3s
Fe7S8sFe7Ta6sFe9S10s
FeAl2sFeBsFeCr2O4s
FeOs,l,gFePsFeP2s
FeSsFeS2sFeSb2s
FeSisFeSi2sFeSi4P4s
FeSiAl2sFeSnsFeSn2s
FeTisFeTi2O5sFeTi3Al8s
Hfs1-s3,lHf2FesHf2Ni7s
Hf3Ni7sHf7Ni10sHf8Ni21s
Hf9Ni11sHfFe2sHfNis1,s2
HfNi3s1,s2HfNi5sHfV2s
La22Al53sLa3AlsLa3Al11s1,s2
La3Si2sLa3Si5sLa5Si3s
La5Si4sLaAlsLaAl2s
LaAl3sLaSisLaSi2s
Mgs1-s7,lMg12Zn13sMg2Cas1,s2
Mg2Cus1,s2Mg2SisMg2Zns
Mg2Zn11sMg2Zn3sMg51Zn20s
MgOs,lMgSs,gMgZn2s1,s2
Mns1-s6,lMn11Si19sMn2Bs
Mn2NisMn2PsMn2Tis
Mn2Ti2sMn2ZrsMn23Al99s
Mn23C6sMn3B4sMn3Cs
Mn3N2sMn3NisMn3Ps
Mn3SisMn3SiAl2sMn3Tis
Mn4Al11sMn5C2sMn5Si3s
Mn5SiCsMn6N5sMn6Sis
Mn7C3sMn7Mo6sMn8Si2Cs
Mn9Si2sMn9Ti2sMnAl12s
MnAl4sMnAl6sMnBs
MnB2sMnB4sMnNis
MnNi2sMnNi3sMnOs,l
MnPsMnP3sMnSs
MnS2sMnSisMnSiN2s
MnTisMos1-s3,lMo2Bs
Mo3PsMo3SisMo5Si3s
MoCsMoNi3sMoNi4s
MoPsMoS2s,lMoSi2s1,s2,l
NgN2gN2Ti5s
N4Si3sN5Ti11sNbs,l
Nb2BsNb2O5s,lNb3B2s
Nb3B4sNbBsNbO2s1-s3,l,g
Nis1-s5,lNi10B7sNi12P5s1,s2
Ni2BsNi2PsNi2Sis
Ni2TasNi2VsNi2V7s
Ni23Fe5Al72sNi3BsNi3Cr15Al82s
Ni3PsNi3S2sNi3S4s
Ni3Sis1-s3Ni3Si2sNi3Vs
Ni4WsNi5Al3sNi5P2s1,s2
Ni5P4sNi5Si2sNi5Zr4s
Ni7S6sNi7Zr2sNi8Tas
Ni8Zr3sNi9B7sNi9Cr11Al80s
Ni9S8sNiAl3sNiBs
NiP2sNiP3sNiSs
NiS2sNiSisNiSi2s1,s2
NiTi2sNiWsNiW2s
NiZrsNiZr2sNTi2s
NZrs,lO2g,aqPs1-s6,l,g
P2gP4gPbs1-s7,l
Pb2ZrsPb3Zr5sPbSs
PbZr4sSs1,s2Sbs1,s2,l
Sb2Sn3sSb2Zn3s1,s2Sb3Zn4s1,s2
SbZnsSis1-s7,lSi2Tas
Si2VsSi2WsSi2Zrs
Si2Zr3sSi3Ta5sSi3V5s
Si3W5sSi3Zr5sSi4Zr5s
Si5V6sSiCs1,s2,gSiO2s1-s8,l
SiPsSiP2sSiTa2s
SiTa3sSiZrsSiZr2s
SiZr3sSns1-s3,lSn2Zrs
Sn3Ti5sSn3Zr5sSn5Ti6s
SnTi2sSnZr4sTas,l
TaV2sTis1-s7,lTi2Mns
Ti2O3s1,s2,lTi3B4sTi3O5s1,s2
Ti3SisTi4N3sTi5Si3s
Ti5Si4sTiBsTiB2s
TiO2s1,s2,lTiSisTiSi2s
Vs1-s5,lV2O3s,lV2Zrs
V3C2s1,s2VOs,l,gWs1-s3,l
W2BsW2B9sW2Hfs
W2Hf7B4sW2ZrsW7B14s
WBs1,s2WB2sWCs
Zns1-s9,lZn9MnsZrs1-s8,l
ZrBsZrB12sZrB2s
ZrO2s1-s3,l