List of 156 Solutions and 757 Compounds in SpMCBN


List of 156 Solutions

1. SpMCBN-222
MSI2 [I]
Phase at ca. 67 at.% Si in Me-Si systems

2. SpMCBN-AL13
AL13FE4
Al-Fe binary phase which dissolves Mn, Si and Zn

3. SpMCBN-AL14
AL12MG17
Phase at ca. 59 at.% in the Al-Mg system

4. SpMCBN-AL15
AL11MN4
Al-Mn phase at ca. 73 At.% Al which dissolves some Fe

5. SpMCBN-AL16
AL12MN
Al-Mn phase at ca. 92 at.% Al which dissolves some Fe

6. SpMCBN-AL2F
AL2FE
Al-Fe binary phase which dissolves some Mn

7. SpMCBN-AL33
AL3NB
Phase at ca.75 at.% Al in the Al-Nb system

8. SpMCBN-AL34
AL3NI2
Phase at ca.60 at.% Al in the Al-Ni system

9. SpMCBN-AL41
AL4C3
Al carbide with solubility for Si

10. SpMCBN-AL42
AL4MN
Al-Mn phase at ca. 80 at.% Al which dissolves some Fe

11. SpMCBN-AL51
AL5FE2
Al-Fe binary phase which dissolves some Mn

12. SpMCBN-AL52
AL5FE4
High-temperature Al-Fe phase (ca.1373-1473 K) which dissolves a little Mn

13. SpMCBN-AL6M
AL6MN
Al-Mn phase at ca. 86 at.% Al which dissolves some Fe

14. SpMCBN-AL8M
AL8MN5_D810
Phase at 50-68 at.% Al in Al-Mn. Stable to ca.1463 K. Solubility for Fe, Si.

15. SpMCBN-ALFE
ALFESI_ALPHA
Al-Fe-Si ternary phase with approx. stoichiometry Al7Fe2Si

16. SpMCBN-ALM1
ALM_D019 [I]
Al-Ti phase (ca. 60 to 78 at.% Ti) with solubility for Mo,Nb,Ta,Ti,V and W

17. SpMCBN-ALM2
ALMNSI_BETA
Al-Mn-Si ternary phase with approx. stoichiometry Al10Mn5.

18. SpMCBN-ALM3
ALMG_GAMMA
Al-Mg phase at ca. 50-60 at.% Mg with solubility for Cu and Zn. Stable to ca. 773 K.

19. SpMCBN-ALM4
ALMG_GAMMA1
Phase at ca. 84 at.% Mg in Dy-Mg and Ho-Mg with the ALMG_gamma structure

20. SpMCBN-ALM5
ALMG_EPSILON
Phase stable between ca. 520 and 675K at approx. 43 at.% Mg in Al-Mg

21. SpMCBN-ALM6
ALMGZN_PHI
Ternary phase in the Al-Mg-Zn system

22. SpMCBN-ALM7
ALMGZN_TAU
Ternary phase in Al-Mg-Zn with solubility for Cu

23. SpMCBN-ALMO
AlMo
Al-Mo phase between ca. 48 & 54 at.% Mo. Stable from 1470 to 1720 C

24. SpMCBN-ALMS
ALMNSI_ALPHA
Al-Mn-Si ternary phase which dissolves some Fe, approx. stoichiometry Al9Mn2Si.

25. SpMCBN-ALN1
ALNB2
Phase at ca.67 at.% Nb in the Al-Nb system

26. SpMCBN-ALN2
ALNB3
Phase at ca.75 at.% Nb in the Al-Nb system

27. SpMCBN-ALT2
ALTI [I]
Al-Ti binary phase which dissolves some Mo, Nb, Ta, V and W. Enter with I option.

28. SpMCBN-ALTA
ALTA_SIGMA
Sigma phase in the Al-Ta and Co-V systems

29. SpMCBN-B_NS
B_NSI
Boron-silicon solution phase at ca. 95 at.% B

30. SpMCBN-B2_B
B2_BCC [I]
Ordered bcc phase found in Al-Co and In-Pd. Use I-option.

31. SpMCBN-B2M
B2M [I]
(M1,M2)B2 in the system B-M1-M2

32. SpMCBN-B2M3
B2M3 [I]
(M1,M2)2B3 in the system B-M1-M2

33. SpMCBN-B4C
B4C
Boron carbide

34. SpMCBN-B4M
B4M
Solution phase formed between e.g. B4Mo and metastable B4W

35. SpMCBN-B4M3
B4M3 [I]
(M1,M2)3B4 in the M1-M2-B system

36. SpMCBN-BCC1
BCC_A2 [I]
Body centred cubic phase with interstitial Va, C, N, and B

37. SpMCBN-BCC2
BCC_B2!BCC_A2 [I]
Ordered BCC phase in e.g. Fe-Al, Fe-Si and Cu-Zn, use I option.

38. SpMCBN-BETA
BETA_RHOMB_BCSI
Boron solid solution phase with solubility for C, Cu and Si.

39. SpMCBN-BM
BM [I]
(M1,M2)B in the system B-M1-M2

40. SpMCBN-BM2
BM2
Solution phase formed between W2B, Ta2B and metastable Nb2B

41. SpMCBN-BM4
BM4
Solution phase formed between W2B, Ta2B and metastable Nb2B

42. SpMCBN-C17Y
C17Y
Phase at ca. 89.5 at.% Co, Fe and Ni in the Co-Ni-Y system

43. SpMCBN-C7NT
C7NT
Phase at ca. 22.2 at.% Nb, Ta, Mo, Y in the Co-Fe-Mo-Nb-Ni-Ta-Y system

44. SpMCBN-CBCC
CBCC_A12 [I]
The solid solution based on alpha-Mn.

45. SpMCBN-CEME
CEMENTITE
"Fe3C" (or Mn3C) with dissolved Co,Cr,Mo,Nb,Ni,V,W. N also modeled on C lattice.

46. SpMCBN-CF23
CF23
Phase at ca. 20.7 at.% Y in the Co-Fe-Ni-Y system

47. SpMCBN-CFN2
CFN2 [I]
Phase at ca. 66.7 at.% Co, Cr Fe, Ni in the Fe-Co-Mo-Nb-Ni-Ta-Ti-W-Y-Zr system

48. SpMCBN-CFN3
CFN3 [I]
Phase at ca. 75 at.% Co, Ni and Fe in the systems with Mo, Nb, Ta, Ti, V, W, Y and Zr

49. SpMCBN-CFNT
CFNT
Phase at 50 at.% Co, Fe and Ni in the Co-Fe-Nb-Ni-Ta-Ti-V-W-Y-Zr system

50. SpMCBN-CHI_
CHI_A12
Found in Fe-Cr based alloys with Mo, Ti and W - not present in the binaries

51. SpMCBN-CHI2
CHI2_A12
Phase formed in the Mo-Re system with solubility for Ta, Ti, W

52. SpMCBN-CN5Y
CN5Y
Phase at ca. 83.3 at.% Co and Ni in the Co-Fe-Ni-Y system

53. SpMCBN-CNT2
CNT2
Phase at ca. 66.7 at.% Hf, Mo, Nb, Ta, Ti, W, Zr in the Co-Cr-Fe-Hf-Mo-Nb-Ni-Re-Ta-Ti-V-W-Zr system

54. SpMCBN-CNY3
CNY3
Phase at 25 at.% Co and Ni in the Co-Ni-Y system

55. SpMCBN-CO17
CO17Y2
The phase at ca. 89.5 at.% Co in the Co-Y system

56. SpMCBN-CO21
CO2SI_ALPHA
Phase at 33 at.% Si in the Co-Si system

57. SpMCBN-CO22
CO2SI_BETA
Phase with small high-temperature range at 33 at.% Si in the Co-Si system

58. SpMCBN-CO4Z
CO4ZN [I]
The phase between ca. 69 and 81 at.% Zn in the Co-Zn system

59. SpMCBN-CO5Y
CO5Y
The high-temperature phase at ca. 82 at.% Co in the Co-Y system

60. SpMCBN-CON2
CONB_LAMBDA
The phase between ca. 27 and 33 at.% Nb in the Co-Nb system

61. SpMCBN-COS2
COSI
Phase at the equiatomic composition in the Co-Si system

62. SpMCBN-CR31
CR3MN5
The phase at 62.5 at.% Mn in the Cr-Mn system

63. SpMCBN-CR32
CR3SI_A15
Phase at 25 at.% Si in the Cr-Si system with solubility for C,Al,Fe,Nb,Ti

64. SpMCBN-CR5S
CR5SI3
Phase at 37.5 at.% Si in the Cr,Fe,Ti-Si system

65. SpMCBN-CRSI
CRSI2
Phase at 67 at% Si in Cr-Si, with solubility for Ti

66. SpMCBN-CUB1
CUB_A13
The solid solution based on beta-Mn

67. SpMCBN-CUB2
CUB_A15
Phase based on the composition Mo3Al

68. SpMCBN-D88_
D88_M5SI3
High-temp. phase at ca. 37.5 at.% Si in Cr-Si, with solubility for C,N,Ni,Ti

69. SpMCBN-DIAM
DIAMOND_A4
Si (or Ge) solid solution with solubility for Al,B,Bi,C,Ga,Ge,P,Ru,Si,Sn,Ti,Zn.

70. SpMCBN-DO22
AL3MD022
Phase at ca. 75 at.% Al in Al-Cr,Mo,Nb,Ta,Ti,V

71. SpMCBN-FCC1
FCC_A1 [J]
Face centred cubic phase with interstitial vacancy, C, N and B.

72. SpMCBN-FCC2
FCC_L12!FCC_A1 [J]
Ordered FCC phase in Al-Ni, Fe-Ni, Ga-Ni, Mn-Ni, Ni-Si. Enter this with I option.

73. SpMCBN-FCC3
FCC_L10 [J]
Phase found around the equiatomic composition and below ca. 1025K in the Mn-Ni system

74. SpMCBN-FCC5
FCC_COV!FCC_A1
Metastable ordered fcc phase in Co-V. Enter with J-option.

75. SpMCBN-FCC9
FCC_A1 [I]
Face centred cubic phase in the C-Y system

76. SpMCBN-FECN
FECN_CHI
An Fe-carbonitride

77. SpMCBN-FEZ5
FEZR2
Phase at ca. 67 at.% Zr in the Fe-Zr system

78. SpMCBN-FEZ6
FEZR3
Phase at ca. 75 at.% Zr in the Fe-Zr system

79. SpMCBN-GRAP
GRAPHITE
Graphite with solubility for B

80. SpMCBN-HCP1
HCP_A3 [I]
Hexagonal close packed phase with interstitial vacancy, C, N, and B.

81. SpMCBN-HCP2
HCP_ORD!HCP_A3 [J]
Ordered hcp phase in the Co-V system

82. SpMCBN-HIGH
HIGH_SIGMA
Occurs at higher temps. between ca.75 and 80 at% Mn in Cr-Mn with solubil.of Fe

83. SpMCBN-HN3V
HN3V
Phase at ca. 25 at.% V and W, in the Hf-Nb-V and Re-V-W systems

84. SpMCBN-KAPA
KAPA
Phase formed in the Nb-Re and Ta-Re systems

85. SpMCBN-KSI_
KSI_CARBIDE
An "Me3C" carbide with significant content of Cr,Fe and Mo

86. SpMCBN-LAV1
LAVES_C14 [J]
A2B phase in e.g. Co-Ta, Cr-Nb,-Ta,-Ti,-Zr, Fe-Mo,-Nb,-Ti-W, Mg-Dy,-Zn, Mn-Ti.

87. SpMCBN-LAV2
LAVES_C15 [I]
A2B phase found e.g.in many alloys of Co and Fe with other transition metals

88. SpMCBN-LAV3
LAVES_C36 [I]
A2B phase in e.g. Co-Ti,-V; Cr-Zr; Hf-Mo; Mg-Ni

89. SpMCBN-LIQU
LIQUID [I]
Liquid alloy phase

90. SpMCBN-M23C
M23C6
Carbide phase found in Cr- nd Mn-containing alloys

91. SpMCBN-M2B
M2B_TETR [I]
(M1,M2)2B in the system B-M1-M2

92. SpMCBN-M2SI
M2SI [I]
Phase at ca. 33.3 at.% Si in Me-Si systems

93. SpMCBN-M3B
M3B [I]
(M1,M2)3B in the system B-M1-M2

94. SpMCBN-M3C2
M3C2
Carbide phase sometimes found in Cr-containing alloys.

95. SpMCBN-M3R2
M3R2 [I]
Phase at ca. 60 at.% Fe in the Fe-Ni-Re system

96. SpMCBN-M3S2
M3SI2
Phase at ca. 40 at.% Si in Me-Si systems

97. SpMCBN-M3SI
M3SI [I]
Phase at 25 at.% Si in Me-Si systems

98. SpMCBN-M4N
M4N [I]
Fe-, Co-, Mn-nitride with dissolved Co,Cr,Ni. C also modeled on the N lattice.

99. SpMCBN-M5B3
M5B3 [I]
Phase at ca. 37.5 at.% B,Si in the Cr,Mo,Mn,V-B,Si system

100. SpMCBN-M5C2
M5C2
An Fe-carbonitride stabilized at certain compositions by Mn and V in solution

101. SpMCBN-M5SI
M5SI3 [I]
Phase at ca. 37.5 at.% Si in several Me-Si systems

102. SpMCBN-M6C
M6C
This carbide can form in alloys with higher Mo- and/or W-content

103. SpMCBN-M6SI
M6SI5
Metastable phase at ca. 45 at.% Si in the Cr-Si and Ti-Si systems

104. SpMCBN-M7B3
M7B3 [I]
(M1,M2)7B3 in the system B-M1-M2

105. SpMCBN-M7C3
M7C3
Carbide phase found in Cr- and Mn-containing alloys.

106. SpMCBN-M7C6
M7C6
Phase at ca. 46 or 54 at.% of Co, Fe, Mn, Mo, Nb, Ni, Ta and W in various systems

107. SpMCBN-MC_1
MC_SHP
The WC carbide with solubility for Mo and N

108. SpMCBN-MC_2
MC_ETA
A Mo,W,V,Nb-carbide

109. SpMCBN-MG22
MG2Y
Phase at ca. 67 at.% Mg in the Mg-Nd and Mg-Y systems

110. SpMCBN-MG23
MG24Y5
Phase at ca. 84 at.% Mg in the Mg-Y system

111. SpMCBN-MGYB
MGYB_LAVES_C14
Phase at ca. 67 at.% Mg in the Mg-Yb system

112. SpMCBN-MN2Z
MN2ZR
Phase with wide stoichiometric range at ca. 67 at.% Mn in the Mn-Zr system

113. SpMCBN-MN3T
MN3TI
High-temperature phase at 75 at.% Mn in the Mn-Ti system, with solubility for Cr

114. SpMCBN-MN4T
MN4TI
High-temperature phase at 80 at.% Mn in the Mn-Ti system, with solubility for Cr

115. SpMCBN-MONI
MONI_DELTA
Phase between ca.43 & 52 at.% Ni in Mo-Ni system, with solubility for Cr and Fe

116. SpMCBN-MR2N
MR2N
Phase at ca. 33 at.% Ni, in the Mo-Ni-Re system

117. SpMCBN-MR7N
MR7N
Phase at ca. 46 at.% Ni, in the Mo-Ni-Re system

118. SpMCBN-MSI
MSI
Phase at the equiatomic composition in the Cr-Si, Fe-Si, Mn-Si and Ni-Si systems

119. SpMCBN-MSI4
M5SI4
Phase at ca. 44.5 at.% Si in Me-Si systems

120. SpMCBN-MU_P
MU_PHASE [I]
Phase appearing in Co-Mo,-Nb,-Ta,-W, Fe-Mo,-Nb,-W, Mn-Mo, Ni-Nb,-Ta.

121. SpMCBN-MV2Z
MV2Z
Phase at ca. 33 at.% Hf and Zr, in the Mo-Nb-Re-Ta-V-W-Hf-Zr system

122. SpMCBN-NBNI
NBNI_MU
Phase at ca. 50 at.% Ni in the Nb-Ni system

123. SpMCBN-NI10
NI10ZR7
Phase at ca. 57.5 at.% Ni in the Ni-Zr system

124. SpMCBN-NI21
NI2SI_C37
Phase at 67 at.% Ni in the Ni-Si system, with solubility for Cr

125. SpMCBN-NI22
NI2SI_HEX
Phase stable above 1090K at 67 at.% Ni in Ni-Si system, with solubility for Cr

126. SpMCBN-NI31
NI3NB
Phase at ca. 75 at.% Ni in the Nb-Ni system

127. SpMCBN-NI35
NI3MOTA
Phase at 75 at.% Ni in the Ni-Ta system

128. SpMCBN-NI36
NI3TI
Phase at ca. 75 at.% Ni in the Ni-Ti system

129. SpMCBN-NI37
NI3ZR
Phase at ca. 75 at.% Ni in the Ni-Zr system

130. SpMCBN-NI52
NI5SI2
Phase at ca. 71 at.% Ni in the Ni-Si system, with solubility for Cr

131. SpMCBN-NI53
NI5ZR
Phase at ca. 83 at.% Ni in the Ni-Zr system

132. SpMCBN-NI7Z
NI7ZR2
Phase at ca. 78 at.% Ni in the Ni-Zr system

133. SpMCBN-NIHF
NIHF2
Phase at ca. 67 at.% Hf in the Ni-Hf system

134. SpMCBN-NIT1
NITA
Phase at ca. 50 at.% Ni in the Ni-Ta system; stable to 1834K

135. SpMCBN-NIT2
NITA2
Phase at ca. 33 at.% Ni in the Ni-Ta system

136. SpMCBN-NIT3
NITI2
NiTi2 phase with solubility for C

137. SpMCBN-NR7N
NR7N
Phase at ca. 46 at.% Ni, in the Mo-Ni-Re and Nb-Ni-Re systems

138. SpMCBN-P_PH
P_PHASE
Phase found in high-temperature Ni-based alloys containing Mo.

139. SpMCBN-PI_P
PI_PHASE
A Cr-rich nitride containing Fe and Ni.

140. SpMCBN-R_PH
R_PHASE
Phase found in high-temperature Ni-based alloys, containing Mo and/or W

141. SpMCBN-RE25
RE25 [I]
Phase at ca. 54 at.% Re in the Hf-Re system

142. SpMCBN-SIB1
SIB3
Silicon boride at 75at% B

143. SpMCBN-SIB2
SIB6
Silicon boride at approx. 86 at.% B

144. SpMCBN-SIG2
SIGMA_SGTE
Sigma phase modeled by SGTE using alternative 3-sublattice description

145. SpMCBN-SIGM
SIGMA [I]
Can form at lower temperatures in alloys containing Co, Cr, Fe, Mn, Mo, Ni, V, W

146. SpMCBN-TETA
TETA
Phase formed between ca. 33 to 40 at% Si and between ca. 1090K and 1565K in the Ni-Si system

147. SpMCBN-TI2N
TI2N
Hexagonal Ti-nitride. Modeled with C present on the N lattice.

148. SpMCBN-TIM1
TIMN_ALPHA
Low-temperature phase at 50 at.% Mn in the Mn-Ti system, with solubility for Cr

149. SpMCBN-TIM2
TIMN_BETA
High-temperature phase at ca. 50 at.% Mn in Mn-Ti system, with solubility for Cr

150. SpMCBN-TINI
TiNi
Equiatomic Ni-Ti phase with ca. 10 at.% range. Stable to ca. 1300 C

151. SpMCBN-V2TZ
V2TZ [I]
Phase at ca. 66.7 at.% V in the V-Hf-Ta-Zr system

152. SpMCBN-V3C2
V3C2
A vanadium carbide phase stabilized by Fe and Mn in solution.

153. SpMCBN-V3SI
V3SI
Phase at ca. 75 at.% V in the V-Si system

154. SpMCBN-W2B5
W2B5
A tungsten boride at ca. 70 at.% B

155. SpMCBN-WB_1
WB_ALPHA
Low-temperature form of tungsten boride stable to ca. 2400K

156. SpMCBN-WB_2
WB_BETA
High-temperature form of tungsten boride stable above ca. 2400K


List of 757 Compounds

Als,l,gAl10VsAl11Cr2s
Al11Mn4sAl11Re4sAl12Mns
Al12MosAl12ResAl12Ws
Al13Co4sAl13Cr2sAl140Mg89s
Al17Ti8sAl2CasAl2CaSi2s
Al2FesAl2HfsAl2Hf3s
Al2MnSi3sAl2ScsAl2Tis
Al2WsAl2YsAl2Y3s
Al2ZrsAl2Zr3sAl23V4s
Al3C3B2sAl3CosAl3Hfs
Al3Hf2sAl3Hf4sAl3Nis
Al3Ni5sAl3ScsAl3Tas
Al3Ta2sAl3VsAl3Ys
Al3Y5sAl3ZrsAl3Zr2s
Al3Zr5sAl30Mg23sAl4C3s
Al4C4SisAl4CasAl4Crs
Al4MnsAl4MosAl4Res
Al4WsAl4Zr5sAl5Co2s
Al5Fe2sAl5MosAl5Ws
Al6MnsAl6ResAl63Mo37s
Al69Ta39sAl7Ta5sAl7Vs
Al7W3sAl77W23sAl8C7Sis
Al8Cr5s1,s2Al8Mo3sAl8V5s
Al9Co2sAl9Cr4s1,s2AlB12s
AlB2sAlCr2sAlHfs
AlHf2sAlHfNisAlMo3s
AlNsAlResAlRe2s
AlScsAlSc2sAlTas
AlYsAlY2sAlZrs
AlZr2sAlZr3sArg,aq
Bs1,s2,lB12ScsB2Crs
B2MgsB2MnsB2Mos
B2NbsB2Ni3sB2Scs
B2Tas,lB2TisB2Vs
B2V3sB2ZrsB3Cr5s
B3Ni4sB3V2sB4Crs
B4Cr3sB4MgsB4Mn3s
B4Ti3sB4V3sB4Zr3s
B5Mo3sB6CasB7Mgs
B9W2sBCosBCo2s
BCo3sBCrsBCr2s
BFe2sBMnsBMn2s
BMosBMo2sBNs
BNisBNi2sBNi3s
BTisBVsBW2s
BZrsCs,lC2Cr2Vs
C2Mn5sC2SiTi3sC3Mn7s
C6Mn23sCas,l,gCa2Sis
CaC2s1,s2CaMg2sCaSis
CaSi2sCCo6W6sCFe8Si2s
Cos1,s2,l,gCo11Sc4Si5sCo11Zr2s
Co14Sc4Si9sCo16Nb9sCo16Ti6Si7s
Co2NbsCo2ScsCo2Sc3Si3s
Co2ScSi2sCo2TiSisCo2V4Cs
Co2V4NsCo2YsCo20Al3B6s
Co20Ti3B6sCo20V3B6sCo21Cr2B6s
Co21Sc2B6sCo3Al2B5sCo3AlCs
Co3MosCo3NbsCo3Sc2Si5s
Co3ScB2sCo3SisCo3Tis
Co3Ti2SisCo3WsCo3Ys
Co3Y2sCo3Y4sCo4Ns
Co4Sc10SisCo4Sc5Si10sCo4ScB4s
Co4Ti4Si7sCo4TiSi3sCo4Zrs
Co47Si20B10sCo5Sc3Si2sCo5ScSi3s
Co5Ti3B2sCo5Y8sCo7Nb2s
Co7Ta2sCo7Y2sCo7Y6s
CoScsCoSc2sCoSc2Si2s
CoSc3sCoSc4Si6sCoScB4s
CoScSisCoSi2sCoTa2s
CoTi2sCoTi3Si8sCoTiSis
CoV3sCoVB3sCoYs
CoY3sCoZrsCoZr2s
CoZr3sCrsCr2AlB2s
Cr2AlCsCr2Hfs1,s2Cr20Cr3C6s
Cr3AlB4sCr3AlB7sCr3B2s
Cr3C2sCr3Mn5sCr3Sc2Si4s
Cr4Sc2Si5sCr5Sc7Si8sCr5Si3s
Cr5Si3BsCr7B3sCr7C3s
Cr9VB5sCrSc2B6sCrSis
CSisFes,lFe17Y2s
Fe2AlB2sFe2NbsFe2Scs
Fe2SisFe2TasFe2Ys
Fe23Y6sFe23Zr6sFe3AlCs
Fe3B2sFe3B4sFe3Si7s
Fe3YsFe5AlB3sFe5Si2Bs
Fe5Si3sFe5SiB2sFe7Ta6s
FeBsFeSc7sFeScB4s
FeSisFeSi2sFeTis
Hfs1,s2,lHf11Si8C2sHf2Al3C4s
Hf2CosHf2Co21B6sHf2Co7s
Hf2FesHf2Mo3SisHf2Ns
Hf2Ni21B6sHf2Ni7sHf2Sis
Hf3Al3C5sHf3AlNsHf3B2s
Hf3N2sHf3Ni7sHf3Si2s
Hf4N3sHf5Al3CsHf5Al3Ns
Hf5Si3sHf5Si4sHf7Ni10s
Hf8Ni21sHf8Si6BsHf9Mo4Bs
Hf9Ni11sHfBsHfB2s
HfCosHfCo2sHfCo3B2s
HfFe2sHfMoSisHfNis1,s2
HfNi3s1,s2HfNi5sHfSis
HfSi2sHfV2sMgs,l
Mg2NisMg2SisMgB20s
MgScsMns1-s4,lMn11Si19s
Mn12YsMn2AlB2sMn2Nis
Mn2ScsMn2Ti2sMn2Ys
Mn23Sc6sMn23Y6sMn3Nis
Mn3Sis1,s2Mn3Si5sMn3Tis
Mn4NsMn5AlB11sMn5Sis
Mn5Si2sMn5Si3sMn5SiB2s
Mn6N4sMn6N5sMn6Sis
Mn9Si2sMn9Ti2sMnB4s
MnNisMnNi2sMnNi3s
MnSc4sMnSisMnSiN2s
MnTisMos,lMo10Co13Si7s
Mo2CBsMo2Co21B6sMo2CoB2s
Mo2FeB2sMo2Ni3SisMo2NiB2s
Mo2YFe7sMo24Si15C3sMo3Al2Cs
Mo3B2sMo3B4sMo3CoB3s
Mo3Ni3CsMo3NiSisMo3Sis
Mo42Co14Si14sMo5B3sMo5Co3Si2s
Mo5Ni4SisMo5Si3sMo5SiB2s
Mo5Zr6Si9sMo6Ni6CsMo6Zr6Si9s
Mo7Co9Cr5sMo7Y10Si13sMo9AlB10s
MoAlBsMoB4sMoCs
MoCoBsMoNbNsMoNi3s
MoNi4sMoSi2s1,s2MoTiB2s
MoYB4sMoZr12Si7sMoZr4Cos
MoZrCosMoZrSisNl
N2gN2Ti5sN4Si3s
Nbs,lNb10Al9BsNb10Ni5Bs
Nb11Co19Si5sNb14Si3B3sNb2AlCs
Nb2BsNb2Co21B6sNb2NBs
Nb2Ni3SisNb2SisNb3Al2Ns
Nb3B2sNb3B4sNb3Co4B7s
Nb3Co5B2sNb3Fe3B4sNb3Fe3Ns
Nb3SisNb3Si2sNb4Co2Cs
Nb4Co2NsNb4Co4Si7sNb4CoSis
Nb4Ni2CsNb4Ni2NsNb4NiSis
Nb5Ni11B4sNb5Si2BsNb5Si3s
Nb5Si4sNb5Si4CsNb6Al3Bs
Nb6Co16Si7sNb6Ni16Si7sNb7B3s
Nb7Co6sNb7Si6sNbBs
NbCo4Si3sNbCoBsNbCoSis
NbFeBsNbNi7B2sNbNiB2s
NbNiSisNbNiSi2sNbSi2s
Nis,l,gNi11Sc2B5sNi11Si5B4s
Ni15Sc4B6sNi16Ti6Si7sNi17Y2s
Ni2ScsNi2SisNi2Tas
Ni2VsNi2V4NsNi2V7s
Ni2YsNi2Y3sNi20Al3B6s
Ni20Ti3B6sNi21Sc2B6sNi3Cr2B6s
Ni3ScBsNi3Sis1,s2Ni3Si2s
Ni3Ti2SisNi3VsNi3Ys
Ni4TiSi3sNi4WsNi4Ys
Ni5ScsNi5Si2sNi5Ti6Sis
Ni5YsNi5Zr4sNi6Si2Bs
Ni7Sc2sNi7VB2sNi7Y2s
Ni8AlB11sNi8TasNi8Zr3s
NiCr3B6sNiScsNiSc2s
NiScB4sNiSisNiSi2s
NiTi2s1,s2NiTiSisNiTiSi2s
NiWsNiW2sNiYs
NiY3sNiZrsNiZr2s
NTasNTi2sNWs
OlO2gRes,l
Re11Nb9sRe11YBsRe12Ni11B6s
Re2Cr3B5sRe2Fe3sRe2Hfs
Re2ScsRe2Sc3Si3sRe2Sis
Re2VsRe2YsRe2Zrs
Re24Hf5sRe24Sc5sRe24Ti5s
Re24Zr5sRe25Hf21sRe29Ta6B15s
Re3Al2BsRe3BsRe3Fe12B5s
Re3Nb3B4sRe3Sc2Si4sRe3Sc8Si9s
Re3Ta2sRe3Ta3B4sRe3Vs
Re3V2B5sRe3WsRe3Y2Si5s
Re4Si7sRe4YB4sRe4YSi2s
Re5Co2B4sRe5Mo5C4sRe6V4B5s
Re7B3sRe7Co8B5sRe8Mo2s
Re8Sc5Si12sRe8V2B5sReB2s
ReCoBsReSc2B6sReScSi2s
ReSisReTaB3sReTi2B2s
ReY2B6sReY3B7sReYB4s
ReZr2sScs,lSc2Cs
Sc2C2BsSc2C3BsSc3C4s
Sc4C3sSc5Si3sSc6Si10s
ScAlC2sScC2B2sScNs
ScSisSis,lSi11Yb8s
Si2TasSi2TisSi2Vs
Si2WsSi2Ys1,s2Si2Zrs
Si2Zr3sSi3Ta5sSi3V5s
Si3W5sSi3Y5sSi3Yb5s
Si3Zr5sSi4Ti5sSi4Y5s
Si4Yb5sSi4Zr5sSi5V6s
Si5Y3s1,s2Si5Yb3sSi7Yb4s
SiTa2sSiTa3sSiTis
SiTi3sSiYsSiYbs
SiZrsSiZr2sSiZr3s
Tas,lTa10Si6NsTa2AlCs
Ta2BsTa2Co21B6sTa2Cr9B9s
Ta2Ni21B6sTa3B2sTa3B4s
Ta3Co5B2sTa3Co7B10sTa3Fe3B4s
Ta4Co2CsTa4Ni2NsTa48Si30C5s
Ta5Al3CsTa7Ni6sTaBs
TaCoBsTaCoB2sTaFeBs
TaFeB3sTaHfVsTaMoNs
TaNiBsTaNiB2sTaV2s
Tcs,lTc24Mo16sTc3Bs
Tc7B3sTc7Mo3sTc8Tis
TcB2sTcFesTcTis
Tis1,s2,lTi2AlCsTi2AlNs
Ti2BsTi3Al2N2sTi3AlCs
Ti3AlC2sTi3AlNsTi5Si3s
Vs,lV2AlCsV2Bs
V2SisV2ZrsV3C2s1,s2
V3Sc2Si3sV3Sc2Si4sV5B3s
V6ScSi5sV8Si5NsVSc3B6s
VSisWs,lW14Fe3B20s
W2Co21B6sW2Co3SisW2CoB2s
W2FeB2sW2HfsW2Ni3Sis
W2NiB2sW2SiBsW2Ti3Si10s
W2YFe10sW2ZrsW3B4s
W3CoB6sW3Cr2B3sW3Hf9B2s
W3Sc2Si4sW3SisW3Tc7s
W3Ti2B5sWB4sWCs
WCoBsWFeBsWY3B7s
WYB4sYs1,s2,l,gY2Co7B3s
Y2Fe14BsY2Ni10B5sY2Ni15B6s
Y2Ni15B9sY2Ni2BsY2Ni3B6s
Y23Fe80B80sY3CsY3C4s
Y3Co11B4sY3FeB7sY3Ni13B2s
Y3Ni19B10sY3Ni7B2sY4C5s
Y4NiB13sY5C5B2sY5Co2B6s
Y5Fe3B6sY5Ni60B29sY5Si2B8s
YbsYB12sYB2s
YB4sYB6sYB66s
YC2sYC2B2sYCBs
YCB2sYCo12B6sYCo2B2s
YCo3B2sYCo4BsYCo4B4s
YCo5sYCoB4sYCoCs
YCoC2sYCr2Si2sYCrB4s
YFe11TisYFe2B2sYFeB4s
YFeC2sYNsYNi12B6s
YNi2B2sYNi4BsYNiB4s
YNiC2sZrs1,s2,lZr10Al6Bs
Zr10Si6BsZr10Si6NsZr11Ni39s
Zr2Al3C5sZr2BsZr2Co21B6s
Zr2FesZr2Ni21B6sZr3Al3C5s
Zr3AlNsZr3Co10Ti7sZr5Al3Cs
Zr5Al3NsZr5Ni7Si18sZr5Si3Cs
Zr6Ni16Si7sZr7Ni4Si9sZrB12s
ZrCo3BsZrCo4TisZrNi2Si2s
ZrNiSis