| LIQUID |
Liquid |
|
|
|
|
1 |
(AL, AL1N1, AL2/3O1, AL2O4TI, AL4/3O2, B, BO3/2, C, CO, COO, COO3/2, CR, CRO, CRO3/2, CU, CU2O, CUO, FE, FEO, FEO3/2, HF, HF1/2O1, HF1N1, IR, MN, MNO, MNO3/2, MO, MO1/2O1, MOO3, N, NB, NB1O1, NBO5/2, NI, NIO, O1TI1, O1ZN1, O2TI1, RE, RE1/2O1, REO7/2, RH, RU, RU1/2O1, SI, SI1/2O1, SI2O4, SIO2, SN, SNO, SNO2, TA, TA2/5O1, TI, TIO3/2, V, V1O1, VO2, VO3/2, VO5/2, W, W1/3O1, Y, Y2/3O1, ZN, ZR, ZR1/2O1)1 |
| FCC_A1 |
Face-Centered Cubic (Cu, A1, fcc) |
A1 |
cF4 |
(225, Fm-3m) |
FCC_A1 will be combined to FCC_L12 if defined. |
2 |
(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, SN, TA, TI, V, W, Y, ZN, ZR)1(B, C, N, O, VA)1 |
| FCC_L12 |
Bogdanovite (Cu3Au, L12) |
L12 |
cP4 |
(221, Pm-3m) |
This phase has some contribution from FCC_A1. |
3 |
(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, SN, TA, TI, V, W, Y, ZN, ZR)0.75(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, SN, TA, TI, V, W, Y, ZN, ZR)0.25(B, C, N, O, VA)1 |
| BCC_A2 |
Body-Centered Cubic (W, A2, bcc) |
A2 |
cI2 |
(229, Im-3m) |
BCC_A2 will be combined to BCC_B2 if defined. |
2 |
(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, SN, TA, TI, V, VA, W, Y, ZN, ZR)1(B, C, N, O, VA)3 |
| BCC_B2 |
CsCl (B2) |
B2 |
cP2 |
(221, Pm-3m) |
This phase has some contribution from BCC_A2. |
3 |
(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, SN, TA, TI, V, VA, W, Y, ZN, ZR)0.5(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, SN, TA, TI, V, VA, W, Y, ZN, ZR)0.5(B, C, N, O, VA)3 |
| HCP_A3 |
Hexagonal Close Packed (Mg, A3, hcp) |
A3 |
hP2 |
(194, P6_3/mmc) |
Disordered HCP_A3 solution phase. |
2 |
(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, SN, TA, TI, V, W, Y, ZN, ZR)1(B, C, N, O, VA)0.5 |
| CBCC_A12 |
alpha-Mn (A12) |
A12 |
cI58 |
(217, I-43m) |
|
2 |
(AL, CO, CR, CU, FE, IR, MN, MO, NB, NI, RE, RU, SI, SN, TA, TI, V, W, Y, ZN, ZR)1(B, C, VA)1 |
| CUB_A13 |
beta-Mn (A13) |
A13 |
cP20 |
(213, P4_132) |
|
2 |
(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RU, SI, SN, TA, TI, V, W, Y, ZN, ZR)1(B, C, VA)1 |
| DIS_FCC_A1 |
Face-Centered Cubic (Cu, A1, fcc) |
A1 |
cF4 |
(225, Fm-3m) |
A copy of the FCC_A1 phase just for the use in kinetic simulation. |
2 |
(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, SN, TA, TI, V, W, Y, ZN, ZR)1(B, C, N, O, VA)1 |
| DIAMOND_A4 |
Diamond (A4) |
A4 |
cF8 |
(227, Fd-3m) |
Pure C, Si or solid solution phases based on them. |
1 |
(AL, B, C, SI, SN)1 |
| BETA_RHOMBO_B |
beta-B (R-105) |
|
hR105 |
(166, R-3m) |
|
2 |
(B)93(B, C, CU, SI)12 |
| GRAPHITE_A9 |
Hexagonal Graphite (A9) |
A9 |
hP4 |
(194, P6_3/mmc) |
|
1 |
(B, C)1 |
| BCT_A5 |
beta-Sn (A5) |
A5 |
tI4 |
(141, I4_1/amd) |
Disordered BCT solution phase. |
1 |
(AL, CU, NI, SN, ZN)1 |
| M23B6_TAU_D84 |
Th6Mn23 (D8a) |
D8a |
cF116 |
(225, Fm-3m) |
ternary boride. |
4 |
(CO, HF, NI, RE)20(B)6(B, VA)6(AL, CR, HF, MO, RE, TA, TI, V, W, ZR)3 |
| M3B_D011 |
Cementite (Fe3C, D011) |
D011 |
oP16 |
(62, Pnma) |
also NI3B_D011. |
2 |
(CO, CR, FE, MO, NI)3(B)1 |
| RE3B_E1A |
Re3B |
|
oS16 |
(63, Cmcm) |
|
2 |
(CR, MO, RE, TA, W)3(B)1 |
| M7B3_D102 |
Fe3Th7 (D102) |
D102 |
hP20 |
(186, P6_3mc) |
also RH7B3, RE7B3_D102. |
3 |
(CO, CR, MO, NB, RE, RH, RU, TA, W)7(B)3(B, VA)3 |
| M2B_C16 |
Khatyrkite (Al2Cu, C16) |
C16 |
tI12 |
(140, I4/mcm) |
aka M2B_TETR. |
2 |
(AL, CO, CR, FE, MN, MO, NB, NI, RE, TA, W)2(B)1 |
| CR2B_CB |
Mg2Cu (Cb) |
Cb |
oF48 |
(70, Fddd) |
aka CR2B_ORTH. |
2 |
(CR, FE, MO, RE)0.66666667(B)0.33333333 |
| MN2B_D1F |
Mg2Cu (Cb) |
Cb |
oF48 |
(70, Fddd) |
|
2 |
(MN)0.6707(B)0.3293 |
| CR5B3_D8L |
Cr5B3 (D8l) |
D8l |
tI32 |
(140, I4/mcm) |
also Mo5B3. |
2 |
(CR, MO)0.625(B)0.375 |
| M3B2_D5A |
Si2U3 (D5a) |
D5a |
tP10 |
(127, P4/mbm) |
also NB3B2, TA3B2, V3B2. |
2 |
(FE, HF, MO, NB, TA, V)3(B)2 |
| M3B2_T |
Si2U3 (D5a) |
D5a |
tP10 |
(127, P4/mbm) |
ternary boride Mo2FeB2 or Mo2CrB2. |
3 |
(CR, FE, MO, NI, W)0.4(CR, FE, NI)0.2(B)0.4 |
| IR4B3 |
Ir4B3 |
|
oF28 |
(42, Fmm2) |
|
2 |
(IR)4(B)3 |
| NI4B3 |
m-Ni4B3 |
|
mS28 |
(15, C2/c) |
|
2 |
(NI)0.57142857(B)0.42857143 |
| IR5B4 |
Ir5B4 |
|
tI36 |
(88, I4_1/a) |
|
2 |
(IR)5(B)4 |
| MB_B27 |
FeB (B27) |
B27 |
oP8 |
(62, Pnma) |
also CoB, HfB, MnB, TiB. |
2 |
(B)1(CO, CR, FE, HF, MN, MO, RE, TI, Y)1 |
| MB_B33 |
CrB (B33) |
B33 |
oS8 |
(63, Cmcm) |
also NbB, NiB, TaB, VB. |
2 |
(CR, FE, HF, MO, NB, NI, TA, TI, V)1(B)1 |
| MOB_BG |
MoB (Bg) |
Bg |
tI16 |
(141, I4_1/amd) |
|
2 |
(CR, FE, MO)1(B)1 |
| WB_ALPHA_BG |
MoB (Bg) |
Bg |
tI16 |
(141, I4_1/amd) |
|
2 |
(B, C, VA)1(W)1 |
| RU1B1 |
Unknown Structure |
|
cI* |
|
|
2 |
(RU)1(B)1 |
| WB_BETA_B33 |
CrB (B33) |
B33 |
oS8 |
(63, Cmcm) |
|
2 |
(B, C, VA)1(W)1 |
| RHB_B81 |
NiAs (B81) |
B81 |
hP4 |
(194, P6_3/mmc) |
|
2 |
(RH)1(B)1.1 |
| M5B6 |
V5B6 |
|
oS22 |
(65, Cmmm) |
also Nb5B6. |
2 |
(NB, V)5(B)6 |
| IR4B5 |
Ir4B5 |
|
mS18 |
(8, Cm) |
|
2 |
(IR)4(B)5 |
| M3B4_D7B |
Ta3B4 (D7b) |
D7b |
oI14 |
(71, Immm) |
also ternary X1Y2B4 boride. |
2 |
(B)4(AL, CR, HF, MN, NB, TA, TI, V)3 |
| RU2B3 |
Ru2B3 |
|
hP10 |
(194, P6_3/mmc) |
|
2 |
(RU)2(B)3 |
| V2B3 |
V2B3 |
|
oS20 |
(63, Cmcm) |
|
2 |
(V)0.4(B)0.6 |
| MB2_C32 |
Hexagonal omega (C32) |
C32 |
hP3 |
(191, P6/mmm) |
|
2 |
(B)2(AL, CR, HF, MN, MO, NB, RU, TA, TI, V, Y, ZR)1 |
| REB2 |
ReB2 |
|
hP6 |
(194, P6_3/mmc) |
|
3 |
(RE)1(B)2(B, VA)2 |
| MO2B5_D8I |
Mo2B5 (D8i) |
D8i |
hR7 |
(166, R-3m) |
|
2 |
(MO)0.32(B)0.68 |
| W2B5_D8I |
Mo2B5 (D8i) |
D8i |
hR7 |
(166, R-3m) |
nonstoichiometric W2B5. |
2 |
(B, C, VA)5(W)2 |
| CRB4 |
CrB4 |
|
oI10 |
(71, Immm) |
|
2 |
(CR)0.2(B)0.8 |
| MN1B4 |
MnB4 |
|
mS10 |
(12, C2/m) |
|
2 |
(MN)0.2(B)0.8 |
| MOB4 |
MoB4 |
|
hP16 |
(194, P6_3/mmc) |
|
2 |
(MO)0.2(B)0.8 |
| YB4_D1E |
ThB4 (D1e) |
D1e |
tP20 |
(127, P4/mbm) |
|
2 |
(Y)0.2(B)0.8 |
| W2B9 |
W2B9 |
|
hP22 |
(147, P-3) |
|
2 |
(B)9(W)2 |
| YB6_D21 |
CaB6 (D21) |
D21 |
cP7 |
(221, Pm-3m) |
|
2 |
(Y)1(B)6 |
| ZRB12_D2F |
UB12 (D2f) |
D2f |
cF52 |
(225, Fm-3m) |
also YB12. |
2 |
(B)12(Y, ZR)1 |
| ALB12_ALPHA |
alpha-AlB12 |
|
tP216 |
(92, P4_12_12) |
|
2 |
(AL, TI)1(B)12 |
| YB66 |
YB66 |
|
cF1936 |
(226, Fm-3c) |
|
2 |
(Y)1(B)66 |
| M12C |
Fe6W6C |
|
cF104 |
(227, Fd-3m) |
also Mo6Ni6C |
3 |
(CO, NI)6(MO, W)6(C)1 |
| M6C_E93 |
Fe3W3C (E93) |
E93 |
cF112 |
(227, Fd-3m) |
|
4 |
(CO, FE, NI)2(MO, NB, TA, W)2(CO, CR, FE, MO, NB, NI, TA, V, W)2(C)1 |
| ALM3C_E21 |
Cubic Perovskite (CaTiO3, E21) |
E21 |
cP5 |
(221, Pm-3m) |
also AlCo3C, AlFe3C. |
3 |
(AL)1(CO, FE)3(C)1 |
| TI3ALC_E21 |
Cubic Perovskite (CaTiO3, E21) |
E21 |
cP5 |
(221, Pm-3m) |
i.e. Ti3AlC1-x. |
3 |
(TI)3(AL)1(C, VA)1 |
| W3MC |
W10Co3C3.4 |
|
hP34 |
(194, P6_3/mmc) |
also W3CoC, W3NiC. |
3 |
(W)3(CO, NI)1(C)1 |
| M23C6_D84 |
Cr23C6 (D84) |
D84 |
cF116 |
(225, Fm-3m) |
|
3 |
(CO, CR, FE, MN, NI, RE, V)20(CO, CR, FE, MN, MO, NI, RE, V, W)3(C)6 |
| ALCR2C |
AlCCr2 |
|
hP8 |
(194, P6_3/mmc) |
MAX_PHASE. |
3 |
(AL)1(C)1(CR)2 |
| CEMENTITE_D011 |
Cementite (Fe3C, D011) |
D011 |
oP16 |
(62, Pnma) |
|
2 |
(CO, CR, FE, MN, MO, NI, V, W)3(C, N)1 |
| TI2ALC |
AlCCr2 |
|
hP8 |
(194, P6_3/mmc) |
i.e. Ti2AlC1-x. |
3 |
(TI)2(AL)1(C, VA)1 |
| M5C2 |
Mn5C2 (Fe5C2 Hagg carbide) |
|
mS28 |
(15, C2/c) |
|
2 |
(FE, MN)5(C)2 |
| M7C3_D101 |
C3Cr7 (D101) |
D101 |
oP40 |
(62, Pnma) |
|
2 |
(CO, CR, FE, MN, MO, NI, RE, V, W)7(C)3 |
| TI3ALC2 |
Ti3SiC2 |
|
hP12 |
(194, P6_3/mmc) |
|
3 |
(TI)3(AL, SI)1(C, VA)2 |
| M3C2_D510 |
Tongbaite (Cr3C2, D510) |
D510 |
oP20 |
(62, Pnma) |
|
2 |
(CO, CR, MO, V, W)3(C)2 |
| AL4C3_D71 |
Al4C3 (D71) |
D71 |
hR7 |
(166, R-3m) |
|
2 |
(AL, SI)4(C)3 |
| MC_ETA |
CMo |
|
hP12 |
(194, P6_3/mmc) |
|
2 |
(MO, V, W)1(C, VA)1 |
| MC_SHP |
Tungsten Carbide (Bh) |
Bh |
hP2 |
(187, P-6m2) |
also MoC_LT, Strukturbericht Bh |
2 |
(MO, W)1(C, N)1 |
| YC_GAMMA_B1 |
Rock Salt (NaCl, B1) |
B1 |
cF8 |
(225, Fm-3m) |
|
2 |
(Y)1(C, C2, VA)1 |
| Y15C19_BETA |
Unknown Structure |
|
|
|
the high temperature beta phase |
2 |
(C)19(Y)15 |
| Y15C19_ALPHA |
alpha-Y15C19 |
|
oP18 |
(55, Pbam) |
aka Y15C19_R. |
2 |
(C)19(Y)15 |
| Y2C3_BETA |
Unknown Structure |
|
|
|
HT phase |
3 |
(Y)2(C)2(C, VA)1 |
| Y2C3_ALPHA |
Sc3C4 |
|
tP70 |
(128, P4/mnc) |
aka Y2C3_R. |
3 |
(Y)2(C)2(C, VA)1 |
| YC2_C11A |
CaC2-I (C11a) |
C11a |
tI6 |
(139, I4/mmm) |
|
1 |
(C2Y1)1 |
| PI_A13 |
beta-Mn (A13) |
A13 |
cP20 |
(213, P4_132) |
i.e. Cr-(Fe,Ni)-N nitride. |
3 |
(CR)12.8(FE, NI)7.2(N)4 |
| FE4N_LP1 |
gama-Fe4N (L'10) |
L'10 |
cP5 |
(221, Pm-3m) |
Only stable in (Co-Cr-Fe)-N when gas suspended. |
2 |
(CO, CR, FE, MN, NI)4(C, N)1 |
| ALTI3N_E21 |
Cubic Perovskite (CaTiO3, E21) |
E21 |
cP5 |
(221, Pm-3m) |
|
3 |
(AL)1(TI)3(N)1 |
| ALTI2N |
AlCCr2 |
|
hP8 |
(194, P6_3/mmc) |
|
3 |
(AL)1(TI)2(N)1 |
| AL2TI3N2 |
(Al2Ti3N2) |
|
hP22 |
(186, P6_3mc) |
|
3 |
(AL)2(TI)3(N)2 |
| FECN_CHI |
Mn5C2 (Fe5C2 Hagg carbide) |
|
mS28 |
(15, C2/c) |
Only stable in C-Fe-N when gas suspended. |
2 |
(FE)2.2(C, N)1 |
| TI4N3 |
Sc2Te3 |
|
hR8 |
(166, R-3m) |
aka Xi-TiN0.58 HT |
2 |
(TI)0.685(N)0.315 |
| TI2N_C4 |
Rutile (TiO2, C4) |
C4 |
tP6 |
(136, P4_2/mnm) |
|
2 |
(TI)2(N)1 |
| Z_PHASE |
CrNbN |
|
tP6 |
(129, P4/nmm) |
|
3 |
(CR, FE)1(MO, NB, V)1(N, VA)1 |
| HF3N2 |
TiS-9R |
|
hR6 |
(166, R-3m) |
|
2 |
(HF)3(N)2 |
| MN3N2 |
Mn3N2 |
|
tI10 |
(139, I4/mmm) |
aka MN6N4. |
2 |
(MN)6(N)4 |
| TI3N2 |
TiS-9R |
|
hR6 |
(166, R-3m) |
|
2 |
(TI)0.71(N)0.29 |
| HF4N3 |
Sc2Te3 |
|
hR8 |
(166, R-3m) |
|
2 |
(HF)4(N)3 |
| MN6N5 |
CoO |
|
tI4 |
(139, I4/mmm) |
|
2 |
(MN)6(N)5 |
| ALN_B4 |
Wurtzite (ZnS, B4) |
B4 |
hP4 |
(186, P6_3mc) |
|
2 |
(AL)1(N)1 |
| TAN_EPS |
TaN-eps |
|
hP6 |
(189, P-62m) |
|
2 |
(TA)1(N)1 |
| HFN_B1 |
Rock Salt (NaCl, B1) |
B1 |
cF8 |
(225, Fm-3m) |
|
2 |
(HF)1(N, VA)1 |
| MN6SI |
Fe7W6 (D85) mu-phase |
D85 |
hR13 |
(166, R-3m) |
|
2 |
(AL, MN)17(SI, ZN)3 |
| MN9SI2 |
Mn9Si2 |
|
oI186 |
(71, Immm) |
|
2 |
(MN)33(SI)7 |
| CR3NI5SI2 |
AlAu4 |
|
cP20 |
(198, P2_13) |
|
4 |
(CR)3(NI)5(SI)2(C, VA)1 |
| CR2NI2SI |
NiTi2 |
|
cF96 |
(227, Fd-3m) |
i.e. the Tau1 phase Cr5Ni5Si3. |
3 |
(CR)5(NI)5(SI)3 |
| CR3SI_A15 |
Cr3Si (A15) |
A15 |
cP8 |
(223, Pm-3n) |
also Cr3X, Nb3X, Ti3X, V3X. |
3 |
(CR, FE, IR, MO, NB, NI, RE, RH, SI, SN, TA, TI, V, ZR)3(AL, CO, CR, IR, NB, NI, RH, RU, SI, SN, TA, TI, V, ZR)1(C, VA)3 |
| CO3SI_D019 |
Ni3Sn (D019) |
D019 |
hP8 |
(194, P6_3/mmc) |
|
2 |
(CO)3(SI)1 |
| IR3SI1 |
SiU3 (D0c) |
D0c |
tI16 |
(140, I4/mcm) |
|
2 |
(IR)3(SI)1 |
| M3SI1 |
Ti3P |
|
tP32 |
(86, P4_2/n) |
also Nb3Si, Ta3Si, Ti3Si, Zr3Si. |
2 |
(HF, NB, TA, TI, ZR)3(SI)1 |
| MN3SI_D03 |
BiF3 (D03) |
D03 |
cF16 |
(225, Fm-3m) |
|
2 |
(FE, MN)3(AL, SI)1 |
| NI3SI_ORTHO_D011 |
Cementite (Fe3C, D011) |
D011 |
oP16 |
(62, Pnma) |
|
2 |
(NI)3(SI)1 |
| NI3SI_MONOCL |
Ge9Pd25 |
|
hP34 |
(147, P-3) |
|
2 |
(NI)3(SI)1 |
| NI5SI2 |
Ni31S12 |
|
hP42 |
(150, P321) |
|
2 |
(CO, CR, CU, FE, NI)5(SI)2 |
| CO2SI1 |
Co2Si (C37) |
C37 |
oP12 |
(62, Pnma) |
also Ni2Si (delta) |
2 |
(CO, CR, CU, FE, IR, NI, RH, TI)2(SI)1 |
| CRNBSI |
ZrNiAl |
|
hP9 |
(189, P-62m) |
|
3 |
(CR)1(NB)1(SI)1 |
| FE2SI |
AlNi2 |
|
hP6 |
(164, P-3m1) |
|
2 |
(FE)0.666667(SI)0.333333 |
| NI2SI_THETA |
AlNi2 |
|
hP6 |
(164, P-3m1) |
aka M2SI_TETA. |
3 |
(CU, NI)1(NI, VA)1(AL, SI)1 |
| RE2SI |
Re2Si |
|
mP24 |
(14, P2_1/c) |
|
2 |
(RE)2(SI)1 |
| RU2SI_C37 |
Co2Si (C37) |
C37 |
oP12 |
(62, Pnma) |
|
2 |
(RU)2(SI)1 |
| M5SI3_D88 |
Mavlyanovite (Mn5Si3, D88) |
D88 |
hP16 |
(193, P6_3/mcm) |
also M5Sn3, M5Si3C. |
4 |
(CR, CU, FE, HF, MN, MO, NB, NI, SI, TI, W, Y, ZR)2(AL, CR, SI, SN, TI)3(CR, CU, FE, HF, MN, MO, NB, NI, TI, Y, ZR)3(C, SN, VA)1 |
| RH5SI3 |
Rh5Ge3 |
|
oP16 |
(55, Pbam) |
|
2 |
(RH)5(SI)3 |
| TA5SI3_D8L |
Cr5B3 (D8l) |
D8l |
tI32 |
(140, I4/mcm) |
also alpha-Nb5Si3. |
2 |
(HF, NB, TA)5(AL, SI)3 |
| W5SI3_D8M |
W5Si3 (D8m) |
D8m |
tI32 |
(140, I4/mcm) |
also Cr5Si3, Mo5Si3, Nb5Si3, V5Si3. |
3 |
(CR, FE, MO, NB, TI, V, W)4(CR, FE, MO, NB, SI, TI, V, W)1(AL, SI, SN)3 |
| RH20SI13 |
Rh20Si13 |
|
hP34 |
(176, P6_3/m) |
|
2 |
(RH)20(SI)13 |
| IR3SI2_B82 |
Ni2In (B82) |
B82 |
hP6 |
(194, P6_3/mmc) |
|
2 |
(IR)3(SI)2 |
| M3SI2_D5A |
Si2U3 (D5a) |
D5a |
tP10 |
(127, P4/mbm) |
also Hf3Si2, Zr3Si2. |
2 |
(HF, NB, ZR)3(SI)2 |
| NI3SI2 |
Ni3Si2 |
|
oP80 |
(36, Cmc2_1) |
|
2 |
(NI)3(SI)2 |
| M11SI8 |
Cr11Ge8 |
|
oP76 |
(62, Pnma) |
also Cr11Si8, Nb11Si8. |
2 |
(CR, NB)11(SI)8 |
| M4SI3 |
Ru4Si3 |
|
oP28 |
(62, Pnma) |
also Cr4Si3, Nb4Si3. |
2 |
(CR, NI, RU)4(SI)3 |
| ZR5SI4_TP36 |
Si4Zr5 |
|
tP36 |
(92, P4_12_12) |
also Hf5Si4, Ti5Si4. |
2 |
(HF, NB, TI, ZR)5(AL, SI)4 |
| Y5SI4 |
Gd5Si4 |
|
oP36 |
(62, Pnma) |
|
2 |
(Y)5(SI)4 |
| M6SI5 |
Si5V6 |
|
oI44 |
(72, Ibam) |
also Cr6Si5, Nb6Si5. |
2 |
(CR, NB, TI, V)6(SI)5 |
| MSI_B20 |
FeSi (B20) |
B20 |
cP8 |
(198, P2_13) |
also CoSi, CrSi, MnSi, ReSi. |
2 |
(CO, CR, FE, MN, NI, RE)1(AL, SI)1 |
| IRSI_B27 |
FeB (B27) |
B27 |
oP8 |
(62, Pnma) |
the HT phase. |
2 |
(IR)1(SI)1 |
| MSI_B27 |
FeB (B27) |
B27 |
oP8 |
(62, Pnma) |
also TiSi, HfSi, YSi, ZrSi(alpha). |
2 |
(HF, NB, TI, Y, ZR)1(AL, SI)1 |
| NISI_B31 |
MnP (B31) |
B31 |
oP8 |
(62, Pnma) |
|
2 |
(NI)1(SI)1 |
| RHSI_B31 |
MnP (B31) |
B31 |
oP8 |
(62, Pnma) |
|
2 |
(RH)1(SI)1 |
| RHSI_B20 |
FeSi (B20) |
B20 |
cP8 |
(198, P2_13) |
|
2 |
(RH)1(SI)1 |
| RUSI |
FeSi (B20) |
B20 |
cP8 |
(198, P2_13) |
united HT_B2/LT_B20 phase. |
2 |
(RU)1(SI)1 |
| IR4SI5 |
Ru4Si5 |
|
mP18 |
(11, P2_1/m) |
|
2 |
(IR)4(SI)5 |
| RH4SI5 |
Ru4Si5 |
|
mP18 |
(11, P2_1/m) |
|
2 |
(RH)4(SI)5 |
| IR3SI4 |
Ru4Si3 |
|
oP28 |
(62, Pnma) |
|
2 |
(IR)3(SI)4 |
| RH3SI4 |
Rh3Si4 |
|
oP28 |
(62, Pnma) |
|
2 |
(RH)3(SI)4 |
| RU2SI3 |
Ge3Ru2 |
|
oP40 |
(60, Pbcn) |
united HT/LT phase. |
2 |
(RU)2(SI)3 |
| IR3SI5 |
Ir3Si5 |
|
mP64 |
(14, P2_1/c) |
|
2 |
(IR)3(SI)5 |
| Y3SI5_HT_CC |
alpha-ThSi2 (Cc) |
Cc |
tI12 |
(141, I4_1/amd) |
|
2 |
(Y)3(SI)5 |
| Y3SI5_LT_C32 |
Hexagonal omega (C32) |
C32 |
hP3 |
(191, P6/mmm) |
|
2 |
(Y)3(SI)5 |
| MN11SI19 |
Mn11Si19 |
|
tP120 |
(118, P-4n2) |
|
2 |
(MN)11(AL, SI)19 |
| CRSI2_C40 |
CrSi2 (C40) |
C40 |
hP9 |
(180, P6_222) |
also NbSi2, TaSi2, VSi2. |
2 |
(CR, CU, HF, MO, NB, SI, TA, TI, V, W)1(AL, CR, CU, SI)2 |
| FESI2_HT |
FeSi2-h |
|
tP3 |
(123, P4/mmm) |
|
2 |
(FE)0.3(SI)0.7 |
| FESI2_LT |
FeSi2-l |
|
oS48 |
(64, Cmce) |
|
2 |
(FE)0.333333(SI)0.666667 |
| MSI2_C1 |
Fluorite (CaF2, C1) |
C1 |
cF12 |
(225, Fm-3m) |
also NiSi2, CoSi2. |
2 |
(CO, CU, MN, NI)1(AL, CU, SI)2 |
| MOSI2_C11B |
MoSi2 (C11b) |
C11b |
tI6 |
(139, I4/mmm) |
also AlCr2, Ti2Zn, ZnZr2, CUZR2_C11B. |
2 |
(AL, CO, CU, FE, MO, NI, RH, W, ZN)1(AL, CR, HF, SI, TI, ZR)2 |
| RESI2_C11B |
Re4Si7 |
|
mS44 |
(8, Cm) |
|
2 |
(RE)0.357(SI)0.643 |
| TISI2_C54 |
TiSi2 (C54) |
C54 |
oF24 |
(70, Fddd) |
also MoSi2, RuAl2, ZrSn2. |
2 |
(MO, NB, RU, TI, ZR)1(AL, SI, SN)2 |
| YSI2_HT_CC |
alpha-ThSi2 (Cc) |
Cc |
tI12 |
(141, I4_1/amd) |
|
2 |
(Y)1(SI)2 |
| YSI2_LT_C32 |
Hexagonal omega (C32) |
C32 |
hP3 |
(191, P6/mmm) |
|
2 |
(Y)1(SI)2 |
| ZRSI2_C49 |
ZrSi2 (C49) |
C49 |
oS12 |
(63, Cmcm) |
also HfSi2. |
2 |
(HF, NB, ZR)1(SI)2 |
| IRSI3_LT |
Unknown Structure |
|
mS* |
|
|
2 |
(IR)1(SI)3 |
| IRSI3_HT |
Unknown Structure |
|
oS* |
|
|
2 |
(IR)1(SI)3 |
| ALFESI_ALPHA_TAU5 |
Fe23Al81Si15 |
|
hP246 |
(194, P6_3/mmc) |
|
4 |
(AL)0.6612(FE)0.19(SI)0.0496(AL, SI)0.0992 |
| ALFESI_BETA_TAU6 |
Fe2Al9Si2 |
|
mS52 |
(15, C2/c) |
|
3 |
(AL)14(FE)3(SI)3 |
| ALFESI_GAMMA_TAU2 |
Unknown Structure |
|
mS* |
|
|
3 |
(AL)3(FE)1(SI)1 |
| ALFESI_DELTA_TAU4 |
FeAl3Si2 |
|
oP24 |
(60, Pbcn) |
|
3 |
(AL)0.55(FE)0.15(SI)0.3 |
| ALFESI_TAU1 |
Unknown Structure |
|
|
|
|
3 |
(AL)2(FE)2(SI)1 |
| ALFESI_TAU3 |
Fe(Al0.67Si0.33)3 |
|
oS128 |
(67, Cmme) |
|
3 |
(AL)2(FE)1(SI)1 |
| AL2MN2SI3 |
(Al2Mn2Si3) |
|
hP21 |
(174, P-6) |
Tau1 |
3 |
(AL)2(MN)2(SI)3 |
| AL5MN6SI7 |
CrSi2 (C40) |
C40 |
hP9 |
(180, P6_222) |
Tau2 |
3 |
(AL)5(MN)6(SI)7 |
| AL1MN1SI1 |
TiSi2 (C54) |
C54 |
oF24 |
(70, Fddd) |
Tau3 |
3 |
(AL)1(MN)1(SI)1 |
| AL3MNSI2 |
(Al3MnSi2) |
|
tP48 |
(85, P4/n) |
Tau4 |
3 |
(AL)3(MN)1(SI)2 |
| AL3MN4SI2 |
Unknown Structure |
|
|
|
ternary tau5 or D phase |
3 |
(AL)3(MN)4(SI)2 |
| ALMNSI_TAU6 |
Unknown Structure |
|
|
|
|
2 |
(AL, MN)4(SI)1 |
| ALMNSI_TAU8 |
Al9Mn3Si (E9c) |
E9c |
hP26 |
(194, P6_3/mmc) |
|
5 |
(MN, VA)6(MN, VA)2(AL)12(AL, SI)6(AL, SI)2 |
| AL2MNSI3 |
Ga5Pd |
|
tI24 |
(140, I4/mcm) |
Tau10 |
3 |
(AL)2(MN)1(SI)3 |
| MN15NI45SI40 |
Unknown Structure |
|
|
|
ternary T1 or N phase |
3 |
(MN)0.15(NI)0.45(SI)0.4 |
| MN15NI50SI35 |
Unknown Structure |
|
|
|
ternary T2 or PHI phase |
3 |
(MN)0.15(NI)0.5(SI)0.35 |
| MN6NI16SI7 |
Th6Mn23 (D8a) |
D8a |
cF116 |
(225, Fm-3m) |
ternary T3 or G phase |
3 |
(MN)0.206897(NI)0.551724(SI)0.241379 |
| MN1NI1SI1_C37 |
MnCuP |
|
oP12 |
(62, Pnma) |
ternary T4 or E phase |
3 |
(MN)1(NI)1(SI)1 |
| MNNISI_T5 |
MgZn2 Hexagonal Laves (C14) |
C14 |
hP12 |
(194, P6_3/mmc) |
ternary T5 or tao_1 phase |
2 |
(MN)1(NI, SI)2 |
| MNNISI_T6 |
Cu2Mg Cubic Laves (C15) |
C15 |
cF24 |
(227, Fd-3m) |
ternary T6 or tao_2 phase |
2 |
(MN)1(NI, SI)2 |
| MN3NI2SI |
Mn3Ni2Si |
|
cF96 |
(227, Fd-3m) |
ternary T7 or Omega |
3 |
(MN)3(NI)2(SI)1 |
| MN2NISI |
Unknown Structure |
|
|
|
ternary T8 or S phase |
2 |
(MN, NI)3(SI)1 |
| MN6NISI3 |
R-(Co,Cr,Mo) |
|
hR53 |
(148, R-3) |
ternary T9 or R' phase |
3 |
(MN)0.61(NI)0.12(SI)0.27 |
| MN66NI4SI30 |
Unknown Structure |
|
|
|
ternary T10 or U phase |
3 |
(MN)0.66(NI)0.04(SI)0.3 |
| MN52NI29SI19 |
Unknown Structure |
|
|
|
ternary phase T11 or W phase |
3 |
(MN)0.52(NI)0.29(SI)0.19 |
| B4C_D1G |
B13C2 B4C (D1g) |
D1g |
hR15 |
(166, R-3m) |
|
2 |
(B11C, B12)1(B2, C2B, CB2)1 |
| BN_B4 |
Wurtzite (ZnS, B4) |
B4 |
hP4 |
(186, P6_3mc) |
|
2 |
(B)1(N)1 |
| MEO_B1 |
Rock Salt (NaCl, B1) |
B1 |
cF8 |
(225, Fm-3m) |
TiO |
2 |
(TI, V, VA)1(O, VA)1 |
| SIB3_D1G |
B13C2 B4C (D1g) |
D1g |
hR15 |
(166, R-3m) |
|
3 |
(B)6(SI)2(B, SI)6 |
| SIB6 |
SiB6 |
|
oP280 |
(58, Pnnm) |
|
3 |
(B)210(SI)23(B, SI)48 |
| BNSI_RHOMBO |
alpha-B (hR12) |
|
hR12 |
(166, R-3m) |
aka BNSI, ALPHA_RHOMBO_B. |
3 |
(B)61(SI)1(B, SI)8 |
| SIC_B3 |
Zincblende (ZnS, B3) |
B3 |
cF8 |
(216, F-43m) |
|
2 |
(SI)1(C)1 |
| SI3N4 |
Nierite (alpha-Si3N4) |
|
hP28 |
(159, P31c) |
|
2 |
(SI)3(N)4 |
| AL4SIC4_E94 |
Al5C3N (E94) |
E94 |
hP18 |
(186, P6_3mc) |
|
3 |
(AL)4(SI)1(C)4 |
| AL8SIC7 |
Unknown Structure |
|
hP16 |
|
|
3 |
(AL)8(SI)1(C)7 |
| FE8SI2C |
Mn8Si2C |
|
aP* |
(1, P1) |
|
3 |
(FE)8(SI)2(C)1 |
| TI3SIC2 |
Ti3SiC2 |
|
hP12 |
(194, P6_3/mmc) |
|
3 |
(TI)3(SI)1(C)2 |
| DIS_MU |
Fe7W6 (D85) mu-phase |
D85 |
hR13 |
(166, R-3m) |
Part of the description for the MU_PHASE |
1 |
(AL, CO, CR, CU, FE, MN, MO, NB, NI, RE, TA, TI, W)1 |
| MU_PHASE |
Fe7W6 (D85) mu-phase |
D85 |
hR13 |
(166, R-3m) |
DIS_MU contribution added onto it. |
4 |
(AL, CO, CR, CU, FE, MN, MO, NB, NI, RE, TA, TI, W)1(AL, CO, CR, CU, FE, MN, MO, NB, NI, RE, TA, TI, W)2(AL, CO, CR, CU, FE, MN, MO, NB, NI, RE, TA, TI, W)6(AL, CO, CR, CU, FE, MN, MO, NB, NI, RE, TA, TI, W)4 |
| DIS_SIG |
sigma-CrFe (D8b) |
D8b |
tP30 |
(136, P4_2/mnm) |
Part of the description for the SIGMA phase. |
1 |
(AL, CO, CR, FE, IR, MN, MO, NB, NI, RE, RH, RU, SI, TA, TI, V, W)1 |
| SIGMA |
sigma-CrFe (D8b) |
D8b |
tP30 |
(136, P4_2/mnm) |
DIS_SIG contribution added onto it. |
3 |
(AL, CO, CR, FE, IR, MN, MO, NB, NI, RE, RH, RU, SI, TA, TI, V, W)10(AL, CO, CR, FE, IR, MN, MO, NB, NI, RE, RH, RU, SI, TA, TI, V, W)4(AL, CO, CR, FE, IR, MN, MO, NB, NI, RE, RH, RU, SI, TA, TI, V, W)16 |
| CHI_A12 |
alpha-Mn (A12) |
A12 |
cI58 |
(217, I-43m) |
also M5Re24, Mo2Re8, Ta3Re7, WRe3. |
3 |
(CR, FE, NI, RE)24(AL, CR, HF, MO, NB, TA, TI, W, ZR)10(CR, FE, MO, NB, NI, RE, TA, W)24 |
| G_PHASE_D8A |
Th6Mn23 (D8a) |
D8a |
cF116 |
(225, Fm-3m) |
|
3 |
(AL, CO, FE, MN, NI, TI)16(HF, NB, TI, Y, ZR)6(CO, FE, MN, NI, SI)7 |
| GAMMA_D83 |
gamma-brass (Cu9Al4, D83) |
D83 |
cP52 |
(215, P-43m) |
also Cu5Zn8, Ni5Zn8, Al5Cu8 (rt). |
3 |
(AL, NI, SI, ZN)4(AL, CU, NI, SI, ZN)1(CU, FE, MN, NI, ZN)8 |
| GAMMA_HT_D82 |
gamma-brass (Cu5Zn8, D82) |
D82 |
cI52 |
(217, I-43m) |
aka GAMMA_H. |
3 |
(AL, ZN)4(AL, CU, ZN)1(CU, FE, MN, NI)8 |
| HEUSLER_L21 |
Heusler (L21) |
L21 |
cF16 |
(225, Fm-3m) |
aka H_L21. |
3 |
(AL, CR, NI, SN, TI)0.5(AL, HF, NB, NI, TA, TI, ZR)0.5(CO, FE, NI, RU, VA)1 |
| O_PHASE |
NaHg |
|
oS16 |
(63, Cmcm) |
aka Ti2NbAl, the O phase. |
3 |
(NB, TA, TI)0.5(AL, NB, TA, TI)0.25(NB, TA, TI)0.25 |
| P_PHASE |
Cr9Mo21Ni20 |
|
oP56 |
(62, Pnma) |
|
3 |
(CR, FE, NI, RE)24(CR, FE, MO, NI, RE)20(MO)12 |
| R_PHASE |
R-(Co,Cr,Mo) |
|
hR53 |
(148, R-3) |
|
3 |
(CO, CR, FE, NI, RE)27(MO, W)14(CO, CR, FE, MO, NI, RE, W)12 |
| B82_OMEGA |
Ni2In (B82) |
B82 |
hP6 |
(194, P6_3/mmc) |
|
3 |
(AL, SN)1(CO, NB, SN, TA, TI)1(TI)1 |
| MNNI_L10 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
|
2 |
(CO, CR, CU, FE, MN, NI)0.5(CO, CR, CU, FE, MN, NI)0.5 |
| IRMN_L10 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
also IrTi. |
2 |
(IR, MN, TI)0.5(IR, MN, TI)0.5 |
| ALTI_L10 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
Solid solution of ordered L10. |
2 |
(AL, CO, CR, MN, MO, NB, SN, TA, TI, V, W, ZR)1(AL, CO, CR, MN, MO, NB, SN, TA, TI, V, W, ZR)1 |
| IRNB_L10 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
|
2 |
(IR, NB)0.5(IR, NB)0.5 |
| IRW_EPSILON_HCP |
Hexagonal Close Packed (Mg, A3, hcp) |
A3 |
hP2 |
(194, P6_3/mmc) |
HT epsilon solution phase with HCP structure. |
2 |
(IR, W)1(IR, W)1 |
| IRW_LT_B19 |
beta'-AuCd (B19) |
B19 |
oP4 |
(51, Pmma) |
|
2 |
(IR)1(IR, W)1 |
| IRV_L10 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
aka Ir1.04V0.96 or IrV1-x. |
2 |
(IR)0.5(IR, V)0.5 |
| NBRH_L10 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
aka Rh1.04V0.96. |
2 |
(NB)0.96(RH)1.04 |
| RHV_L10 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
aka Rh1.12V0.88. |
2 |
(RH, V)1.12(RH, V)0.88 |
| ALCU_EPS_B82 |
Ni2In (B82) |
B82 |
hP6 |
(194, P6_3/mmc) |
epsilon2 HT. |
2 |
(AL, CU, NI)1(CU, FE)1 |
| ALCU_ETA |
AlCu(r) |
|
mS20 |
(12, C2/m) |
united HT-eta1 & LT-eta2. |
2 |
(AL, CU)1(CU, FE, NI, ZN)1 |
| ALPHA_B19 |
beta'-AuCd (B19) |
B19 |
oP4 |
(51, Pmma) |
an ordered HCP. |
2 |
(MO, NB, TI, V, ZR)1(MO, NB, TI, V, ZR)1 |
| ALRE_B11 |
gamma-CuTi (B11) |
B11 |
tP4 |
(129, P4/nmm) |
|
2 |
(AL)1(RE)1 |
| ALZR_B33 |
CrB (B33) |
B33 |
oS8 |
(63, Cmcm) |
also AlHf, ALY_B33. |
2 |
(AL)1(HF, Y, ZR)1 |
| COSN_B35 |
CoSn (B35) |
B35 |
hP6 |
(191, P6/mmm) |
also FeSn, COSN_HP6. |
2 |
(CO, FE, NI)0.5(SN)0.5 |
| COY_B33 |
CrB (B33) |
B33 |
oS8 |
(63, Cmcm) |
aka COY_BF. |
2 |
(CO)1(Y)1 |
| CUTI_B11 |
gamma-CuTi (B11) |
B11 |
tP4 |
(129, P4/nmm) |
aka B11. |
2 |
(CO, CU, NI, TI)1(CU, NI, TA, TI)1 |
| HF1IR1 |
Unknown Structure |
|
|
|
united HT/LT phase |
2 |
(HF)1(IR)1 |
| HFMN |
NiTi2 |
|
cF96 |
(227, Fd-3m) |
|
2 |
(HF)0.5(MN)0.5 |
| HFNI_ALPHA |
CrB (B33) |
B33 |
oS8 |
(63, Cmcm) |
|
2 |
(HF)0.5(NI)0.5 |
| HFRE |
Zr21Re25 |
|
hR92 |
(167, R-3c) |
also Hf21Re25. |
2 |
(HF)1(RE)1 |
| HFRH_B2 |
CsCl (B2) |
B2 |
cP2 |
(221, Pm-3m) |
|
2 |
(HF, RH)1(RH)1 |
| IRV_RT |
alpha-IrV |
|
oS8 |
(65, Cmmm) |
|
2 |
(IR)1(V)1 |
| IRZR_BETA_B2 |
CsCl (B2) |
B2 |
cP2 |
(221, Pm-3m) |
i.e. HT- or beta- phase. |
2 |
(IR, ZR)1(IR, ZR)1 |
| IRZR_ALPHA |
Mn3As (D0d) |
D0d |
oS16 |
(63, Cmcm) |
LT phase. |
2 |
(IR, ZR)1(ZR)1 |
| MNTA |
Unknown Structure |
|
|
|
|
2 |
(MN)1(TA)1 |
| MNTI_LT |
Zr21Re25 |
|
hR92 |
(167, R-3c) |
aka Ti21Mn25_RT. |
2 |
(MN)1(TI)1 |
| MOIR_HT |
Hexagonal Close Packed (Mg, A3, hcp) |
A3 |
hP2 |
(194, P6_3/mmc) |
|
2 |
(IR, MO)1(IR, MO)1 |
| MOIR_LT_B19 |
beta'-AuCd (B19) |
B19 |
oP4 |
(51, Pmma) |
|
2 |
(MO)1(IR)1 |
| NBRH_HT |
Unknown Structure |
|
|
|
|
2 |
(NB, RH)1(NB, RH)1 |
| NB1ZN1 |
Unknown Structure |
|
|
|
|
2 |
(NB)0.5(ZN)0.5 |
| NIZN_TP2 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
united HT/LT phase. |
2 |
(AL, CU, NI, ZN)0.5(AL, NI, ZN)0.5 |
| NIY_B27 |
FeB (B27) |
B27 |
oP8 |
(62, Pnma) |
|
2 |
(NI)1(Y)1 |
| NIZR_B33 |
CrB (B33) |
B33 |
oS8 |
(63, Cmcm) |
|
2 |
(NI)1(TI, ZR)1 |
| RHSN_B20 |
FeSi (B20) |
B20 |
cP8 |
(198, P2_13) |
|
2 |
(RH)1(SN)1 |
| RHZR_LT |
IrZr |
|
oS16 |
(63, Cmcm) |
i.e. alpha_RhZr |
2 |
(RH)1(RH, ZR)1 |
| RHV_RT |
alpha-IrV |
|
oS8 |
(65, Cmmm) |
|
2 |
(RH)1(V)1 |
| RHV_HT |
Unknown Structure |
|
|
|
|
2 |
(RH, V)1(V)1 |
| RHZR_HT_B2 |
CsCl (B2) |
B2 |
cP2 |
(221, Pm-3m) |
i.e. beta_RhZr. |
2 |
(RH)1(RH, ZR)1 |
| ZNZR_B2 |
CsCl (B2) |
B2 |
cP2 |
(221, Pm-3m) |
|
2 |
(ZN)1(ZR)1 |
| ALCU_PRIME |
Al9Cu11(h) |
|
oF88 |
(42, Fmm2) |
aka THETA_PRIME. |
2 |
(AL)2(CU)1 |
| AL2FE |
Al2Fe |
|
aP18 |
(1, P1) |
|
2 |
(AL, CU)2(FE, MN, NI)1 |
| ALRE2_C11B |
MoSi2 (C11b) |
C11b |
tI6 |
(139, I4/mmm) |
|
2 |
(AL)1(RE)2 |
| ALRH2 |
Unknown Structure |
|
|
|
|
2 |
(AL)1(RH)2 |
| AL2TI_LT |
Ga2Hf |
|
tI24 |
(141, I4_1/amd) |
|
2 |
(AL, NB, TI)2(AL, CO, NB, TA, TI, V, ZR)1 |
| Al2W_C40 |
CrSi2 (C40) |
C40 |
hP9 |
(180, P6_222) |
|
2 |
(AL)2(W)1 |
| ALY2_C37 |
Co2Si (C37) |
C37 |
oP12 |
(62, Pnma) |
|
2 |
(AL)1(Y)2 |
| ALZR2_B82 |
Ni2In (B82) |
B82 |
hP6 |
(194, P6_3/mmc) |
|
2 |
(AL)1(TI, ZR)2 |
| C14_LAVES |
MgZn2 Hexagonal Laves (C14) |
C14 |
hP12 |
(194, P6_3/mmc) |
also CuZn2. |
2 |
(AL, CO, CR, CU, FE, HF, MN, MO, NB, NI, RE, RU, SI, TA, TI, V, W, Y, ZN, ZR)2(AL, CO, CR, CU, FE, HF, MN, MO, NB, NI, RE, RU, SI, TA, TI, V, W, Y, ZN, ZR)1 |
| C15_LAVES |
Cu2Mg Cubic Laves (C15) |
C15 |
cF24 |
(227, Fd-3m) |
|
2 |
(AL, CO, CR, CU, FE, HF, IR, MN, MO, NB, NI, RE, RH, RU, SI, TA, TI, V, W, Y, ZN, ZR)2(AL, CO, CR, CU, FE, HF, MO, NB, NI, RE, RH, RU, SI, TA, TI, V, W, Y, ZR)1 |
| C16_THETA |
Khatyrkite (Al2Cu, C16) |
C16 |
tI12 |
(140, I4/mcm) |
|
2 |
(AL, HF, MN, MO, NB, SN, TA, TI, W, ZR)2(AL, CO, CR, CU, FE, IR, MN, NI, RH, SI)1 |
| C36_LAVES |
MgNi2 Hexagonal Laves (C36) |
C36 |
hP24 |
(194, P6_3/mmc) |
|
2 |
(AL, CO, CR, CU, FE, HF, MO, NB, NI, TA, TI, W, ZR)2(AL, CO, CR, CU, FE, HF, MO, NB, NI, TA, TI, W, ZR)1 |
| CRNI2_OP6 |
MoPt2 |
|
oI6 |
(71, Immm) |
|
2 |
(CR, MO, W)1(MO, NI, W)2 |
| CU2TI1 |
Au2V |
|
oS12 |
(63, Cmcm) |
|
2 |
(CO, CU, NI)2(TI)1 |
| CU2Y_HT |
Unknown Structure |
|
hP* |
|
|
2 |
(CU)2(Y)1 |
| CU2Y_LT |
CeCu2 |
|
oI12 |
(74, Imma) |
|
2 |
(CU)2(Y)1 |
| HF2IR |
NiTi2 |
|
cF96 |
(227, Fd-3m) |
|
2 |
(HF)2(IR)1 |
| HF2RH |
NiTi2 |
|
cF96 |
(227, Fd-3m) |
|
2 |
(HF)2(RH)1 |
| HFSN2_C40 |
CrSi2 (C40) |
C40 |
hP9 |
(180, P6_222) |
|
2 |
(HF)1(SN)2 |
| MNNI2 |
Unknown Structure |
|
|
|
|
2 |
(MN, NI)1(NI)2 |
| NBZN2_C36 |
MgNi2 Hexagonal Laves (C36) |
C36 |
hP24 |
(194, P6_3/mmc) |
|
2 |
(NB)0.333(ZN)0.667 |
| NI2V |
MoPt2 |
|
oI6 |
(71, Immm) |
|
2 |
(MO, NI)2(MO, NB, TA, V)1 |
| NI2TA_C11B |
MoSi2 (C11b) |
C11b |
tI6 |
(139, I4/mmm) |
|
2 |
(CO, NI)2(TA, TI)1 |
| NITI2 |
NiTi2 |
|
cF96 |
(227, Fd-3m) |
|
2 |
(CO, CR, CU, FE, NI, RE, TI)1(AL, CR, CU, HF, NI, TA, TI, ZR)2 |
| NI2Y1 |
Ni2Tm |
|
cF192 |
(216, F-43m) |
|
2 |
(NI)2(Y)1 |
| REZR2 |
Zr21Re25 |
|
hR92 |
(167, R-3c) |
aka Zr21Re25. |
2 |
(NI, RE)1(ZR)2 |
| RHSN2_RT |
RhSn2 |
|
tI26 |
(139, I4/mmm) |
|
2 |
(RH)0.33333(SN)0.66667 |
| RH2SN |
Co2Si (C37) |
C37 |
oP12 |
(62, Pnma) |
|
2 |
(RH)2(SN)1 |
| RH2TA |
Co2Si (C37) |
C37 |
oP12 |
(62, Pnma) |
|
2 |
(RH)2(TA)1 |
| SNTI2_B82 |
Ni2In (B82) |
B82 |
hP6 |
(194, P6_3/mmc) |
|
2 |
(SN)1(TI)2 |
| SN2Y_C49 |
ZrSi2 (C49) |
C49 |
oS12 |
(63, Cmcm) |
|
2 |
(SN)2(Y)1 |
| RHZR2 |
NiTi2 |
|
cF96 |
(227, Fd-3m) |
|
2 |
(RH)1(ZR)2 |
| TASN2_CB |
Mg2Cu (Cb) |
Cb |
oF48 |
(70, Fddd) |
also SN2TA_CB. |
2 |
(TA)1(SN)2 |
| VSN2_CB |
Mg2Cu (Cb) |
Cb |
oF48 |
(70, Fddd) |
|
2 |
(SN)0.6(V)0.4 |
| YZN2_LT |
Unknown Structure |
|
|
|
|
2 |
(Y)1(ZN)2 |
| YZN2_HT |
Unknown Structure |
|
|
|
|
2 |
(Y)1(ZN)2 |
| AL3CO1 |
Os4Al13 |
|
mS34 |
(12, C2/m) |
aka CoAl3_cub. |
2 |
(AL)3(CO)1 |
| AL3IR_D018 |
Na3As (D018) |
D018 |
hP8 |
(194, P6_3/mmc) |
|
2 |
(AL)0.75(IR)0.25 |
| AL3NI_D011 |
Cementite (Fe3C, D011) |
D011 |
oP16 |
(62, Pnma) |
|
2 |
(AL, NI)0.75(FE, NI)0.25 |
| AL3RH_LT |
(Al3Rh) |
|
oP* |
(62, Pnma) |
|
2 |
(AL)3(RH)1 |
| ALTI3_D019 |
Ni3Sn (D019) |
D019 |
hP8 |
(194, P6_3/mmc) |
also Ni3Sn_LT, Mn3Sn, Ti3Sn. |
2 |
(AL, CO, CR, CU, MN, MO, NB, NI, SN, TA, TI, V, W, ZR)3(AL, C, CR, MO, NB, NI, SI, SN, TA, TI, V, W)1 |
| AL3TI_D022 |
Al3Ti (D022) |
D022 |
tI8 |
(139, I4/mmm) |
gamma double prime, AL3TI_D022, Al3M, Ni3V. |
2 |
(AL, CO, CR, FE, MO, NB, NI, SI, TI, V)3(AL, CO, CR, MO, NB, NI, SI, TA, TI, V, ZR)1 |
| AL3Y_HT |
BaPb3 |
|
hR12 |
(166, R-3m) |
|
2 |
(AL)0.75(Y)0.25 |
| AL3Y_LT |
Ni3Sn (D019) |
D019 |
hP8 |
(194, P6_3/mmc) |
|
2 |
(AL)0.75(Y)0.25 |
| AL3ZR_D023 |
Al3Zr (D023) |
D023 |
tI16 |
(139, I4/mmm) |
also Al3Hf, Zn3Zr. |
2 |
(AL, ZN)3(HF, TI, ZR)1 |
| CO1SN3 |
Au3Zn |
|
oS32 |
(64, Cmce) |
|
2 |
(CO)0.25(SN)0.75 |
| CO3V1 |
Al3Pu |
|
hP24 |
(194, P6_3/mmc) |
|
2 |
(CO, NI, V)3(CO, V)1 |
| CO3Y1 |
Ni3Pu |
|
hR12 |
(166, R-3m) |
|
2 |
(CO)3(Y)1 |
| CU3SN_LT |
Cu3Sn |
|
oS80 |
(63, Cmcm) |
epsilon |
2 |
(CU, SN)3(CU, SN)1 |
| CUTI3_L60 |
CuTi3 (L60) |
L60 |
tP4 |
(123, P4/mmm) |
|
2 |
(CU, TI)1(TI)3 |
| HFIR3_L12 |
Bogdanovite (Cu3Au, L12) |
L12 |
cP4 |
(221, Pm-3m) |
|
2 |
(HF)1(IR)3 |
| HFNI3_ALPHA |
PdRh2Ta |
|
hP40 |
(194, P6_3/mmc) |
the LT phase. |
2 |
(HF)0.25(NI)0.75 |
| HFNI3_BETA |
BaPb3 |
|
hR12 |
(166, R-3m) |
the HT phase. |
2 |
(HF)0.25(NI)0.75 |
| IRNB_ALPHA2 |
TaIr |
|
oP12 |
(51, Pmma) |
|
2 |
(IR)1(IR, NB)1 |
| IR3W_D019 |
Ni3Sn (D019) |
D019 |
hP8 |
(194, P6_3/mmc) |
|
2 |
(IR, W)3(IR, W)1 |
| IRY3_D011 |
Cementite (Fe3C, D011) |
D011 |
oP16 |
(62, Pnma) |
|
2 |
(IR)1(Y)3 |
| IR3Y1 |
Ni3Pu |
|
hR12 |
(166, R-3m) |
|
2 |
(IR)3(Y)1 |
| IRZR3_D0E |
alpha-V3S |
|
tI32 |
(121, I-42m) |
|
2 |
(IR)1(ZR)3 |
| MY3_D011 |
Cementite (Fe3C, D011) |
D011 |
oP16 |
(62, Pnma) |
also CoY3, NiY3. |
2 |
(CO, NI)1(Y)3 |
| MZR3_E1A |
MgCuAl2 (E1a) |
|
oS16 |
(63, Cmcm) |
also CoZr3, FeZr3. |
2 |
(CO, FE, NI)1(ZR)3 |
| MN3TI1 |
Unknown Structure |
|
|
|
HT phase |
2 |
(MN)3(TI)1 |
| MO1IR3 |
Ni3Sn (D019) |
D019 |
hP8 |
(194, P6_3/mmc) |
|
2 |
(MO)1(IR, MO)3 |
| MO3IR_A15 |
Cr3Si (A15) |
A15 |
cP8 |
(223, Pm-3n) |
|
2 |
(MO)3.06(IR)0.94 |
| NBZN3_L12 |
Bogdanovite (Cu3Au, L12) |
L12 |
cP4 |
(221, Pm-3m) |
|
2 |
(NB)0.25(ZN)0.75 |
| NI3TA_D0A |
beta-TiCu3 (D0a) |
D0a |
oP8 |
(59, Pmmn) |
also delta, Ni3Mo, Ni3Nb. |
2 |
(AL, CO, CR, FE, NB, NI)3(AL, FE, MO, NB, NI, TA, TI, V, W)1 |
| NI3TI_D024 |
Ni3Ti (D024) |
D024 |
hP16 |
(194, P6_3/mmc) |
also Eta, AlNi6Ta. |
2 |
(AL, CO, CR, CU, FE, HF, NI, TA, TI, W, ZR)0.75(AL, CR, CU, HF, MO, NB, NI, SI, TA, TI, W, ZR)0.25 |
| M3Y |
Ni3Pu |
|
hR12 |
(166, R-3m) |
also Fe3Y, Ni3Y. |
2 |
(FE, NI)3(Y)1 |
| RHY3_D011 |
Cementite (Fe3C, D011) |
D011 |
oP16 |
(62, Pnma) |
|
2 |
(RH)1(Y)3 |
| RH3Y1 |
CeNi3 |
|
hP24 |
(194, P6_3/mmc) |
|
2 |
(RH)3(Y)1 |
| RH3ZR_L12 |
Bogdanovite (Cu3Au, L12) |
L12 |
cP4 |
(221, Pm-3m) |
|
2 |
(RH, ZR)3(RH, ZR)1 |
| RUY3_D011 |
Cementite (Fe3C, D011) |
D011 |
oP16 |
(62, Pnma) |
|
2 |
(RU)0.25(Y)0.75 |
| SN3Y1 |
GdSn2.75 |
|
oS16 |
(38, Amm2) |
|
2 |
(SN)3(Y)1 |
| TA3SN_A15 |
Cr3Si (A15) |
A15 |
cP8 |
(223, Pm-3n) |
|
2 |
(TA)3(SN)1 |
| V3SN_A15 |
Cr3Si (A15) |
A15 |
cP8 |
(223, Pm-3n) |
|
2 |
(SN)0.205(V)0.795 |
| VZN3_L12 |
Bogdanovite (Cu3Au, L12) |
L12 |
cP4 |
(221, Pm-3m) |
|
2 |
(V)1(ZN)3 |
| Y1ZN3 |
Zn3Y |
|
oP16 |
(62, Pnma) |
|
2 |
(Y)1(ZN)3 |
| ZN3ZR_HT |
Unknown Structure |
|
c** |
|
|
2 |
(ZN)3(ZR)1 |
| AL13CO4 |
Orthorhombic Co4Al13 |
|
oP102 |
(31, Pmn2_1) |
|
2 |
(AL)13(CO)4 |
| AL5CO2_D811 |
Co2Al5 (D811) |
D811 |
hP28 |
(194, P6_3/mmc) |
also Al5Rh2. |
2 |
(AL)5(CO, RH)2 |
| AL9CO2 |
Co2Al9 (D8d) |
D8d |
mP22 |
(14, P2_1/c) |
also Al9Rh2 |
2 |
(AL)9(CO, RH)2 |
| AL9M2 |
Co2Al9 (D8d) |
D8d |
mP22 |
(14, P2_1/c) |
aka Al9FeNi, metastable Al9Fe2 |
2 |
(AL)9(FE, NI)2 |
| AL11CR2 |
Al5Cr |
|
mS732 |
(15, C2/c) |
|
3 |
(AL)10(AL)1(CR)2 |
| AL13CR2 |
Al45V7 |
|
mS104 |
(12, C2/m) |
|
2 |
(AL)13(CR)2 |
| AL4CR |
mu-Al4Mn |
|
hP574 |
(194, P6_3/mmc) |
|
2 |
(AL)4(CR)1 |
| AL8CR5_LT_D810 |
Cr5Al8 (D810) |
D810 |
hR26 |
(160, R3m) |
|
2 |
(AL)8(CR, V)5 |
| AL9CR4_HT |
Unknown Structure |
|
|
|
|
2 |
(AL)9(CR)4 |
| AL9CR4_LT |
Unknown Structure |
|
|
|
|
2 |
(AL)9(CR)4 |
| ALCU_DELTA |
Al5Cu8 |
|
hR52 |
(160, R3m) |
|
2 |
(AL)2(CU, FE)3 |
| ALCU_ZETA |
Al9Cu11(h) |
|
oF88 |
(42, Fmm2) |
united HT-zeta1 and LT-zeta2. |
2 |
(AL)9(CU, FE)11 |
| AL23CUFE4_D2H |
MnAl6 (D2h) |
D2h |
oS28 |
(63, Cmcm) |
|
3 |
(AL)23(CU)1(FE)4 |
| AL62CU25FE13 |
Quasicrystal |
|
|
|
|
3 |
(FE)0.125(AL, CU)0.255(AL)0.62 |
| AL7CU2FE |
FeCu2Al7 (E9a) |
E9a |
tP40 |
(128, P4/mnc) |
|
3 |
(FE, NI)1(CU)2(AL)7 |
| AL10CU10FE |
(Al10Cu10Fe) |
|
oF116 |
(42, Fmm2) |
|
3 |
(FE)1(AL, CU)10(AL)10 |
| AL7CU4NI |
(Cu0.8Ni0.2)2.53Al3.5 |
|
hR14 |
(166, R-3m) |
|
2 |
(AL)1(CU, FE, NI, VA)1 |
| AL28CU4MN7 |
Mn6Cu4Al29 |
|
oS156 |
(63, Cmcm) |
Tau1, Mn6+xCu4+yAl29-x-y. |
3 |
(AL)28(MN)7(CU)4 |
| AL11CU5MN3 |
Unknown Structure |
|
oP380 |
|
Tau2 |
3 |
(AL)11(MN)3(CU)5 |
| ALCU3MN2_C15 |
Cu2Mg Cubic Laves (C15) |
C15 |
cF24 |
(227, Fd-3m) |
Tau3. |
3 |
(AL)1(MN)2(CU)3 |
| AL5CU4ZN |
Unknown Structure |
|
|
|
|
4 |
(AL, CU)1(AL)4(CU)4(ZN)1 |
| AL13FE4 |
Al13Fe4 |
|
mS102 |
(12, C2/m) |
solid- solution of Al13Fe4 (aka Al3Fe) & Al13Ru4. |
3 |
(AL, CU)0.6275(FE, MN, NI, RU)0.235(AL, SI, VA)0.1375 |
| AL5FE2 |
Al2.8Fe |
|
oS24 |
(63, Cmcm) |
|
2 |
(AL, CU)5(FE, MN, NI)2 |
| AL5FE4_D82 |
gamma-brass (Cu5Zn8, D82) |
D82 |
cI52 |
(217, I-43m) |
also AL8FE5_D82 |
1 |
(AL, CU, FE)1 |
| AL16FEMN3 |
mu-Al4Mn |
|
hP574 |
(194, P6_3/mmc) |
Tau1 |
2 |
(AL)4(FE, MN)1 |
| AL13FE2MN2 |
Al13Fe4 |
|
mS102 |
(12, C2/m) |
Tau2. |
2 |
(FE, MN)4(AL)13 |
| AL10FEMN2 |
Mn3Al10 |
|
hP26 |
(194, P6_3/mmc) |
Tau3. |
2 |
(FE, MN)3(AL)10 |
| AL10FE3NI |
Co2Al5 (D811) |
D811 |
hP28 |
(194, P6_3/mmc) |
|
2 |
(AL)5(FE, NI)2 |
| AL71FE5NI24 |
Unknown Structure |
|
|
|
|
3 |
(AL)0.71(FE)0.05(NI)0.24 |
| AL9IR2 |
Co2Al9 (D8d) |
D8d |
mP22 |
(14, P2_1/c) |
|
2 |
(AL)0.818(IR)0.182 |
| AL45IR13 |
Al45Ir13 |
|
oP236 |
(62, Pnma) |
|
2 |
(AL)0.776(IR)0.224 |
| AL13IR4 |
Unknown Structure |
|
|
|
|
2 |
(AL)0.765(IR)0.235 |
| AL28IR9 |
Al28Ir9 |
|
hP236 |
(159, P31c) |
|
2 |
(AL)0.757(IR)0.243 |
| AL5IR2 |
Al2.75Ir |
|
cP60 |
(195, P23) |
|
2 |
(AL)0.73(IR)0.27 |
| AL12MN_GPHASE |
Al12W |
|
cI26 |
(204, Im-3) |
|
2 |
(AL)12(MN)1 |
| AL4MN_LAMBDA |
lambda-Al4Mn |
|
hP586 |
(194, P6_3/mmc) |
also AL461MN107 |
2 |
(AL)461(FE, MN)107 |
| AL4MN_MU |
mu-Al4Mn |
|
hP574 |
(194, P6_3/mmc) |
|
2 |
(AL)4(MN)1 |
| AL11MN4_LT |
Al11Mn4 |
|
aP15 |
(2, P-1) |
|
2 |
(AL)11(FE, MN)4 |
| AL11MN4_HT |
Mn6(Mn0.5Al0.5)8Al25 |
|
oP156 |
(62, Pnma) |
|
2 |
(AL, MN)29(MN)10 |
| AL8MN5_D810 |
Cr5Al8 (D810) |
D810 |
hR26 |
(160, R3m) |
|
3 |
(AL, TI, ZN)12(MN)5(AL, CU, MN, SI, TI)9 |
| AL6MN_D2H |
MnAl6 (D2h) |
D2h |
oS28 |
(63, Cmcm) |
also Al6Re, Al6Ru |
2 |
(AL)6(FE, MN, RE, RU)1 |
| AL31MN6NI2 |
mu-Al4Mn |
|
hP574 |
(194, P6_3/mmc) |
|
3 |
(AL)31(MN)6(NI)2 |
| TI25MN9AL66_L12 |
Bogdanovite (Cu3Au, L12) |
L12 |
cP4 |
(221, Pm-3m) |
also Ti25Mn8Al67 or Ti43Mn11Al66, Tau1. |
2 |
(AL, MN, TI)0.75(AL, MN, TI)0.25 |
| AL24MN5ZN |
Unknown Structure |
|
|
|
ternary Tau1 phase |
3 |
(MN, ZN)5(ZN)1(AL)24 |
| AL9MN2ZN |
Unknown Structure |
|
|
|
ternary Tau2 phase |
3 |
(MN)2(ZN)1(AL)9 |
| AL11MN3ZN2 |
Unknown Structure |
|
oS152 |
|
ternary Tau3 phase |
3 |
(MN)3(ZN)2(AL)11 |
| AL63MO37 |
Unknown Structure |
|
|
|
Mo3Al5_HT |
2 |
(AL)63(MO)37 |
| AL8MO3 |
Al8Mo3 |
|
mS22 |
(12, C2/m) |
|
2 |
(AL)8(MO)3 |
| ALMO_A2 |
Body-Centered Cubic (W, A2, bcc) |
A2 |
cI2 |
(229, Im-3m) |
improper modelling. |
2 |
(AL, MO)1(AL, MO)1 |
| AL3NI5 |
Ga3Pt5 |
|
oS16 |
(65, Cmmm) |
|
2 |
(AL)0.375(NI)0.625 |
| AL3NI2_D519 |
Al3Ni2 (D513) |
D513 |
hP5 |
(164, P-3m1) |
also Al3Ru2. |
3 |
(AL, SI, SN, ZN)3(AL, CU, FE, NI, RU)2(NI, RU, VA)1 |
| AL13NI2TI5_L12 |
Bogdanovite (Cu3Au, L12) |
L12 |
cP4 |
(221, Pm-3m) |
Tau1 |
3 |
(AL)13(NI)2(TI)5 |
| ALNI2ZN |
Unknown Structure |
|
|
|
|
3 |
(AL)0.25(NI)0.5(ZN)0.25 |
| AL13NI38ZN49 |
Unknown Structure |
|
|
|
|
3 |
(AL)0.13(NI)0.38(ZN)0.49 |
| AL11RE4 |
Al11Mn4 |
|
aP15 |
(2, P-1) |
|
2 |
(AL)11(RE)4 |
| AL4RE |
Al4Re |
|
aP71 |
(2, P-1) |
|
2 |
(AL)4(RE)1 |
| AL5RH2_HT |
beta-Al5Rh2 |
|
cP54 |
(195, P23) |
|
2 |
(AL)2(RH, VA)1 |
| AL7RH3_HT |
Unknown Structure |
|
mP* |
|
|
2 |
(AL)7(RH)3 |
| AL15SI2M4_TAU9 |
Al15(Mn,Fe)3Si2 |
|
cI168 |
(204, Im-3) |
|
3 |
(AL)14(FE, MN)4(AL, SI)5 |
| ALSI3TI2 |
Zr3Al4Si5 |
|
tI24 |
(141, I4_1/amd) |
aka Ti7Al5Si12, Tau1 |
3 |
(AL)0.166667(SI)0.5(TI)0.333333 |
| AL3TI_LT |
Al3Ti-LT |
|
tI32 |
(139, I4/mmm) |
|
2 |
(AL, TI)3(AL, TI, ZR)1 |
| AL5TI2_HT |
Al5Ti2 |
|
tP28 |
(123, P4/mmm) |
|
2 |
(AL, TI)5(AL, NB, TA, TI, V, ZR)2 |
| AL5TI3 |
Al5Ti3 |
|
tP32 |
(127, P4/mbm) |
|
2 |
(AL)5(TA, TI)3 |
| AL21V2 |
Al10V |
|
cF176 |
(227, Fd-3m) |
|
2 |
(AL)21(V)2 |
| AL45V7 |
Al45V7 |
|
mS104 |
(12, C2/m) |
aka Al7V |
2 |
(AL)45(V)7 |
| AL23V4 |
Al23V4 |
|
hP54 |
(194, P6_3/mmc) |
|
2 |
(AL)23(V)4 |
| AL8V5_D82 |
gamma-brass (Cu5Zn8, D82) |
D82 |
cI52 |
(217, I-43m) |
|
2 |
(AL, V)8(AL, CR, V, Zr)5 |
| AL77W23 |
Unknown Structure |
|
|
|
|
2 |
(AL)77(W)23 |
| AL7W3 |
Unknown Structure |
|
|
|
|
2 |
(AL)7(W)3 |
| AL12W_GPHASE |
Al12W |
|
cI26 |
(204, Im-3) |
also Al12Mo, Al12Re. |
2 |
(AL)12(MO, RE, W)1 |
| AL4W |
Al4W |
|
mS30 |
(8, Cm) |
also Al4Mo. |
2 |
(AL)4(MO, W)1 |
| AL5W |
Al5W |
|
hP12 |
(182, P6_322) |
also AL5MO. |
2 |
(AL)5(MO, W)1 |
| AL2ZR3 |
Zr3Al2 |
|
tP20 |
(136, P4_2/mnm) |
also Al2Hf3, Al2Y3. |
2 |
(AL)2(HF, TI, Y, ZR)3 |
| AL3ZR2 |
Zr2Al3 |
|
oF40 |
(43, Fdd2) |
also Al3Hf2. |
2 |
(AL)3(HF, ZR)2 |
| AL3ZR4 |
Al3Zr4 |
|
hP7 |
(191, P6/mmm) |
also Al3Hf4. |
2 |
(AL)3(HF, TI, ZR)4 |
| AL3ZR5_D8M |
W5Si3 (D8m) |
D8m |
tI32 |
(140, I4/mcm) |
|
2 |
(AL)3(TI, ZR)5 |
| AL4ZR5 |
Ti5Ga4 |
|
hP18 |
(193, P6_3/mcm) |
|
2 |
(AL)4(ZR)5 |
| CO10CU57TI33 |
MoSi2 (C11b) |
C11b |
tI6 |
(139, I4/mmm) |
Strukturbericht C11B. |
3 |
(CO)0.1(CU)0.57(TI)0.33 |
| CO7HF |
(Co11Hf2) |
|
oP* |
(50, Pban) |
|
2 |
(CO)7(HF)1 |
| COSNTI_TAU2 |
Half-Heusler (C1b) |
C1b |
cF12 |
(216, F-43m) |
aka TiCoSn. |
3 |
(CO, NI)1(SN)1(TI)1 |
| CO3Y2 |
Unknown Structure |
|
cP* |
|
|
2 |
(CO)3(Y)2 |
| CO3Y4 |
Co3Ho4 |
|
hP22 |
(176, P6_3/m) |
|
2 |
(CO)3(Y)4 |
| CO5Y_D2D |
CaCu5 (D2d) |
D2d |
hP6 |
(191, P6/mmm) |
|
3 |
(CO2, Y)1(CO)4(CO, VA)1 |
| CO5Y8 |
Co5Y8 |
|
mP52 |
(14, P2_1/c) |
|
2 |
(CO)5(Y)8 |
| CO7NB2 |
(Co7Nb2) |
|
mS18 |
(12, C2/m) |
|
2 |
(CO)7(NB)2 |
| CO7TA2 |
BaPb3 |
|
hR12 |
(166, R-3m) |
|
2 |
(CO)7(TA)2 |
| CO7Y6 |
Unknown Structure |
|
|
|
|
2 |
(CO)7(Y)6 |
| CO17Y2 |
Ni17Th2 |
|
hP38 |
(194, P6_3/mmc) |
united HT/LT phase. |
3 |
(CO2, Y)1(CO2, Y)2(CO)15 |
| COZN_LT_A13 |
beta-Mn (A13) |
A13 |
cP20 |
(213, P4_132) |
|
2 |
(CO, ZN)1(VA)1 |
| COZN_HT |
Unknown Structure |
|
|
|
|
2 |
(CO, ZN)1(VA)1 |
| COZN_GAMMA_D82 |
gamma-brass (Cu5Zn8, D82) |
D82 |
cI52 |
(217, I-43m) |
aka Zn11Co2, COZN4_D83. |
2 |
(CO, ZN)1(VA)1 |
| COZN_DELTA |
Unknown Structure |
|
|
|
Zn15Co2 HT phase |
2 |
(CO)0.117647(ZN)0.882353 |
| COZN_GAMMA1 |
Co2Zn15 |
|
mS28 |
(12, C2/m) |
aka CoZn7.8 |
2 |
(CO)0.125(ZN)0.875 |
| COZN_GAMMA2 |
CoZn13 |
|
mS28 |
(12, C2/m) |
aka CoZn13 |
2 |
(CO)0.0714286(ZN)0.9285714 |
| CO11ZR2 |
(Co11Hf2) |
|
oP* |
(50, Pban) |
|
2 |
(CO)11(ZR)2 |
| CRZN13 |
Unknown Structure |
|
m** |
|
|
2 |
(CR)1(ZN)13 |
| CRZN17 |
Unknown Structure |
|
hP* |
|
|
2 |
(CR)1(ZN)17 |
| CU51HF14 |
Ag51Gd14 |
|
hP68 |
(175, P6/m) |
|
2 |
(CU)51(HF)14 |
| CU8HF3 |
Cu8Hf3 |
|
oP44 |
(62, Pnma) |
|
2 |
(CU)8(HF)3 |
| CU10HF7 |
Ni10Zr7 |
|
oS68 |
(64, Cmce) |
|
2 |
(CU)10(HF)7 |
| CU5MN4SI |
Unknown Structure |
|
|
|
|
3 |
(CU)0.5(MN)0.37(SI)0.13 |
| CU4MNSN_TAU1 |
MgCu4Sn |
|
cF24 |
(216, F-43m) |
|
3 |
(CU)0.6666(SN)0.1667(MN)0.1667 |
| CUMNZN_TAU1 |
Cu2Mg Cubic Laves (C15) |
C15 |
cF24 |
(227, Fd-3m) |
|
3 |
(CU)0.334(MN)0.333(ZN)0.333 |
| CU6NISI3 |
Unknown Structure |
|
|
|
|
2 |
(CU, NI)0.732(SI)0.268 |
| CU46NI25SI29 |
Unknown Structure |
|
|
|
|
3 |
(CU)0.458(NI)0.25(SI)0.292 |
| CU33SI7_DELTA |
Unknown Structure |
|
|
|
HT phase |
2 |
(CU)0.825(SI)0.175 |
| CU15SI4_EPS_D86 |
Cu15Si4 (D86) |
D86 |
cI76 |
(220, I-43d) |
|
2 |
(CU, MN)0.789474(AL, SI)0.210526 |
| CU56SI11_GAMMA_A13 |
Mg3Ru2 |
|
cP20 |
(213, P4_132) |
|
2 |
(CU, MN, NI, SI)0.835821(SI)0.164179 |
| CU3SI_ETA |
Cu3Si-h2 |
|
hR* |
(162, P-31m) |
United 3-allotropes: eta''-RT(oS* *), eta'-HT1(hR27 R-3), eta-HT2(hR* P-31m) |
2 |
(CU, MN, NI)0.76(SI)0.24 |
| CU6SN5_HT |
Ni2In (B82) |
B82 |
hP6 |
(194, P6_3/mmc) |
also Co3Sn2, Mn(2-x)Sn, Ni3Sn2. |
3 |
(CO, CU, MN, NI, VA)1(AL, CU, NI, SN)1(CO, CU, MN, NI, VA)1 |
| CU6SN5_LT |
Cu6Sn5 |
|
mS44 |
(15, C2/c) |
eta-prime. |
3 |
(CU)1(CU, SN)1(SN)1 |
| CU10SN3 |
Cu10Sn3 |
|
hP26 |
(173, P6_3) |
zeta. |
2 |
(CU, NI)0.769(SN)0.231 |
| CU41SN11 |
Cu41Sn11 |
|
cF416 |
(216, F-43m) |
delta. |
2 |
(CU, SN, ZN)41(CU, SN, ZN)11 |
| CU3TI2 |
Cu3Ti2 |
|
tP10 |
(129, P4/nmm) |
|
2 |
(CU, FE, NI)3(CO, TI)2 |
| CU4TI1 |
Au4Zr |
|
oP20 |
(62, Pnma) |
|
2 |
(CU, TI)4(CU, TI)1 |
| CU4TI3 |
Cu4Ti3 |
|
tI14 |
(139, I4/mmm) |
|
2 |
(CO, CU, NI)4(TI)3 |
| CU2TIZR |
MgZn2 Hexagonal Laves (C14) |
C14 |
hP12 |
(194, P6_3/mmc) |
|
3 |
(CU)0.5(TI)0.25(ZR)0.25 |
| CU7Y1 |
Cu7Tb |
|
hP8 |
(191, P6/mmm) |
aka Cu6Y or Cu5.4Y0.8 |
2 |
(CU2, Y)1(CU)5 |
| CU4Y |
Cu5Y1.25 |
|
mP16 |
(11, P2_1/m) |
|
2 |
(CU)4(Y)1 |
| CU7Y2 |
Ag51Gd14 |
|
hP68 |
(175, P6/m) |
|
2 |
(CU)7(Y)2 |
| CUMNZN_EPSILON_HCP |
Hexagonal Close Packed (Mg, A3, hcp) |
A3 |
hP2 |
(194, P6_3/mmc) |
|
2 |
(CU, MN, ZN)1(VA)0.5 |
| CU10ZR7 |
Ni10Zr7 |
|
oS68 |
(64, Cmce) |
|
2 |
(CU)10(ZR)7 |
| CU51ZR14 |
Ag51Gd14 |
|
hP68 |
(175, P6/m) |
|
2 |
(CU)51(ZR)14 |
| CU8ZR3 |
Cu8Hf3 |
|
oP44 |
(62, Pnma) |
|
2 |
(CU)8(ZR)3 |
| FENBZR_CFC2_C15 |
Cu2Mg Cubic Laves (C15) |
C15 |
cF24 |
(227, Fd-3m) |
|
3 |
(FE, NB, ZR)2(NB, ZR)1(NB, ZR)3 |
| FE3SN2 |
Fe3Sn2 |
|
hR10 |
(166, R-3m) |
|
2 |
(FE)3(SN)2 |
| FE5SN3_B82 |
Ni2In (B82) |
B82 |
hP6 |
(194, P6_3/mmc) |
|
2 |
(FE)5(SN)3 |
| FE3ZN7_GAMMA_D82 |
gamma-brass (Cu5Zn8, D82) |
D82 |
cI52 |
(217, I-43m) |
|
4 |
(FE, ZN)0.154(FE, ZN)0.154(FE, ZN)0.231(ZN)0.461 |
| FEZN4_GAMMA1_D81 |
Fe11Zn40 |
|
cF408 |
(216, F-43m) |
|
3 |
(FE)0.137(FE, ZN)0.118(ZN)0.745 |
| FEZN10_DELTA |
FeZn10 |
|
hP632 |
(194, P6_3/mmc) |
|
4 |
(FE)0.058(FE, ZN)0.18(ZN)0.525(ZN)0.237 |
| FEZN13_ZETA |
CoZn13 |
|
mS28 |
(12, C2/m) |
|
3 |
(FE, VA)0.072(ZN)0.856(VA, ZN)0.072 |
| CU3SN_HT_GAMMA |
BiF3 (D03) |
D03 |
cF16 |
(225, Fm-3m) |
Cu3Sn HT solution phase |
1 |
(CU, MN, NI, SN, ZN)1 |
| HF5IR3 |
Ir3Zr5 |
|
hP48 |
(178, P6_122) |
|
2 |
(HF)5(IR)3 |
| HF3NI7 |
Hf3Ni7 |
|
aP20 |
(2, P-1) |
|
2 |
(HF)0.3(NI)0.7 |
| HF8NI21 |
Hf8Ni21 |
|
aP29 |
(2, P-1) |
also ZR8NI21. |
2 |
(HF, ZR)8(NI)21 |
| HF3RH4 |
Unknown Structure |
|
|
|
|
2 |
(HF)3(RH)4 |
| HF3RH5 |
Rh5Ge3 |
|
oP16 |
(55, Pbam) |
|
2 |
(HF)3(RH)5 |
| HF5SN4 |
Ti5Ga4 |
|
hP18 |
(193, P6_3/mcm) |
|
2 |
(HF)5(SN)4 |
| IR2Y3 |
Y3Rh2 |
|
tI140 |
(140, I4/mcm) |
|
2 |
(IR)2(Y)3 |
| IR2Y5 |
Mn5C2 (Fe5C2 Hagg carbide) |
|
mS28 |
(15, C2/c) |
|
2 |
(IR)2(Y)5 |
| IR3Y5 |
Mavlyanovite (Mn5Si3, D88) |
D88 |
hP16 |
(193, P6_3/mcm) |
united HT/LT phase. |
2 |
(IR)3(Y)5 |
| IR3ZR5 |
Ir3Zr5 |
|
hP48 |
(178, P6_122) |
|
2 |
(IR)3(ZR)5 |
| MN3SN2 |
Tongbaite (Cr3C2, D510) |
D510 |
oP20 |
(62, Pnma) |
|
2 |
(MN)3(SN)2 |
| MNTI_HT |
Unknown Structure |
|
t** |
|
aka TiMn Mn+ or Ti0.47Mn0.53 |
2 |
(MN)0.515(TI)0.485 |
| MN4TI |
R-(Co,Cr,Mo) |
|
hR53 |
(148, R-3) |
aka Ti9Mn42 |
2 |
(CR, MN)0.815(TI)0.185 |
| MN12Y_D2B |
Mn12Th (D2b) |
D2b |
tI26 |
(139, I4/mmm) |
|
2 |
(MN)12(Y)1 |
| MNZN9 |
Unknown Structure |
|
h** |
|
|
2 |
(MN)1(ZN)9 |
| MO7IR3 |
sigma-CrFe (D8b) |
D8b |
tP30 |
(136, P4_2/mnm) |
|
2 |
(MO)0.7(IR)0.3 |
| MONI4_BETA_D1A |
Ni4Mo (D1a) |
D1a |
tI10 |
(87, I4/m) |
also WNi4. |
2 |
(MO, W)1(NI)4 |
| MONI_DELTA |
MoNi |
|
oP56 |
(19, P2_12_12_1) |
|
3 |
(CO, CR, FE, NI, RE)24(CO, CR, FE, MO, NI, RE, W)20(CU, MO, W)12 |
| MOZN7 |
Ca7Ge |
|
cF32 |
(225, Fm-3m) |
|
2 |
(MO)1(ZN)7 |
| MOZN22 |
Zn93(Zn0.43Mo0.57)Mo4 |
|
cF420 |
(216, F-43m) |
|
2 |
(MO)1(ZN)22 |
| NB15NI56TI29_XA |
Unknown Structure |
|
o*100 |
|
|
3 |
(NB)0.15(NI)0.56(TI)0.29 |
| NB8NI9TI3_XB |
Unknown Structure |
|
|
|
|
3 |
(NB)0.4(NI)0.45(TI)0.15 |
| NB5NI75TI20_XC |
Ni3Sn (D019) |
D019 |
hP8 |
(194, P6_3/mmc) |
|
3 |
(NB)0.05(NI)0.75(TI)0.2 |
| NB13NI75TI12_XD |
Unknown Structure |
|
|
|
|
3 |
(NB)0.13(NI)0.75(TI)0.12 |
| NB15NI80TI5_XE |
Unknown Structure |
|
|
|
|
3 |
(NB)0.15(NI)0.8(TI)0.05 |
| NB3RU5 |
Rh5Ge3 |
|
oP16 |
(55, Pbam) |
united Nb3Ru5_HT and NbRu3_LT phase |
2 |
(NB, RU)0.375(RU)0.625 |
| NBRH_ETA |
Al3Pu |
|
hP24 |
(194, P6_3/mmc) |
|
2 |
(NB, RH)1.3(RH)2.7 |
| NBRH_ZETA |
Unknown Structure |
|
|
|
|
2 |
(NB)3(NB, RH)5 |
| NBRH_EPSILON |
beta'-AuCd (B19) |
B19 |
oP4 |
(51, Pmma) |
|
2 |
(NB, RH)0.85(RH)1.15 |
| NBRH_DELTA |
TaIr |
|
oP12 |
(51, Pmma) |
|
2 |
(NB)0.9(RH)1.1 |
| NBSN2_CB |
Mg2Cu (Cb) |
Cb |
oF48 |
(70, Fddd) |
|
2 |
(NB, SN, V)1(NB, SN)2 |
| NBZN7 |
Unknown Structure |
|
|
|
|
2 |
(NB)0.125(ZN)0.875 |
| NBZN15 |
TiZn16 |
|
oS68 |
(63, Cmcm) |
|
2 |
(NB)0.0625(ZN)0.9376 |
| NB2ZN3_D85 |
Fe7W6 (D85) mu-phase |
D85 |
hR13 |
(166, R-3m) |
|
2 |
(NB)0.4(ZN)0.6 |
| NI8M |
Pt8Ti |
|
tI18 |
(139, I4/mmm) |
also Ni8Ta, Ni8Nb. |
2 |
(NI)8(NB, TA)1 |
| NI7ZR2 |
Ni7Zr2 |
|
mS36 |
(12, C2/m) |
also NI7HF2, NI7Y2, CO7HF2 and CO7Y2. |
2 |
(AL, CO, CR, NI)7(HF, Y, ZR)2 |
| NI3SN4 |
delta-Ni3Sn4 (D7a) |
D7a |
mS14 |
(12, C2/m) |
|
3 |
(CU, NI)0.25(NI, SN)0.25(SN)0.5 |
| NI2Y3 |
Ni2Y3 |
|
tP80 |
(92, P4_12_12) |
|
2 |
(NI)2(Y)3 |
| NI4Y |
Unknown Structure |
|
hR* |
|
|
2 |
(NI)4(Y)1 |
| NI17Y2 |
Fe17Lu2 |
|
hP80 |
(194, P6_3/mmc) |
also Fe17Y2. |
2 |
(AL, FE, NI)1(Y)0.1176 |
| NIZN8_DELTA |
Ni3Zn22 |
|
mS50 |
(12, C2/m) |
|
2 |
(NI)0.1111111(AL, ZN)0.8888889 |
| NI11ZR9 |
Pt11Zr9 |
|
tI40 |
(87, I4/m) |
also Ni11Hf9. |
2 |
(NI)11(HF, ZR)9 |
| NI10ZR7 |
Ni10Zr7 |
|
oS68 |
(64, Cmce) |
also Ni10Hf7. |
2 |
(NI)23(HF, ZR)17 |
| NI5ZR_C15B |
AuBe5 (C15b) |
C15b |
cF24 |
(216, F-43m) |
also Ni5Y/Ni5Hf/Cu5Hf/Cu5Zr, aka ZRM5_C15B. |
2 |
(AL, CU, NI)5(HF, Y, ZR)1 |
| RE3NB_A12 |
alpha-Mn (A12) |
A12 |
cI58 |
(217, I-43m) |
|
3 |
(RE)24(NB, V, W)10(NB, RE, V, W)24 |
| RHSN4 |
IrGe4 |
|
hP15 |
(152, P3_121) |
|
2 |
(RH)1(SN)4 |
| RH3SN2 |
Ni2In (B82) |
B82 |
hP6 |
(194, P6_3/mmc) |
|
3 |
(RH)0.125(RH)0.5(SN)0.375 |
| RH12TA8 |
Rh12Ta8 |
|
oP12 |
(51, Pmma) |
|
2 |
(RH, TA)1.2(TA)0.8 |
| RH5TA4 |
Unknown Structure |
|
|
|
|
2 |
(RH, TA)5(TA)4 |
| RH5TI3 |
Rh5Ge3 |
|
oP16 |
(55, Pbam) |
|
2 |
(RH)5(TI)3 |
| RH5V3 |
Rh5V3 |
|
oS16 |
(63, Cmcm) |
|
2 |
(RH)5(V)3 |
| RH5Y_HT |
CaCu5 (D2d) |
D2d |
hP6 |
(191, P6/mmm) |
|
2 |
(RH)5(Y)1 |
| RH2Y3 |
Y3Rh2 |
|
tI140 |
(140, I4/mcm) |
|
2 |
(RH)2(Y)3 |
| RH3Y5 |
Unknown Structure |
|
|
|
|
2 |
(RH)3(Y)5 |
| RH3Y7 |
Fe3Th7 (D102) |
D102 |
hP20 |
(186, P6_3mc) |
|
2 |
(RH)3(Y)7 |
| RH4ZR3_LT |
Pd4Pu3 |
|
hR14 |
(148, R-3) |
alpha_Rh4Zr3. |
2 |
(RH, ZR)4(ZR)3 |
| RH4ZR3_HT |
Unknown Structure |
|
|
|
beta_Rh4Zr3 |
2 |
(RH, ZR)4(ZR)3 |
| RH5ZR3 |
Pd5Pu3 |
|
oS32 |
(63, Cmcm) |
|
2 |
(RH)5(RH, ZR)3 |
| RU3SN7_D8F |
Ir3Ge7 (D8f) |
D8f |
cI40 |
(229, Im-3m) |
|
2 |
(RU)0.3(SN)0.7 |
| RU2SN3 |
Ru2Sn3 |
|
tP20 |
(116, P-4c2) |
|
2 |
(RU)0.4(SN)0.6 |
| RU2Y3 |
Er3Ru2 |
|
hP10 |
(176, P6_3/m) |
|
2 |
(RU)0.4(Y)0.6 |
| RU25Y44 |
Ru25Y44 |
|
oP276 |
(52, Pnna) |
|
2 |
(RU)0.362(Y)0.638 |
| RU2Y5 |
Mn5C2 (Fe5C2 Hagg carbide) |
|
mS28 |
(15, C2/c) |
|
2 |
(RU)0.286(Y)0.714 |
| SN3TI2 |
Unknown Structure |
|
|
|
|
2 |
(SN)3(TI)2 |
| SN5TI6 |
Sn5Ti6-beta |
|
hP22 |
(194, P6_3/mmc) |
also Sn5Nb6. |
2 |
(AL, SN)5(NB, TI)6 |
| SN5Y2 |
Shcherbinaite (V2O5) (Revised) |
|
oP14 |
(59, Pmmn) |
|
2 |
(SN)5(Y)2 |
| SN10Y11 |
Ge10Ho11 |
|
tI84 |
(139, I4/mmm) |
|
2 |
(SN)10(Y)11 |
| SN4Y5 |
Gd5Si4 |
|
oP36 |
(62, Pnma) |
|
2 |
(SN)4(Y)5 |
| TA1AL1 |
Al38Ta48 |
|
mP86 |
(14, P2_1/c) |
|
2 |
(TA)0.51515(AL)0.48485 |
| TAAL2_HT |
Al69Ta39 |
|
cF444 |
(216, F-43m) |
|
2 |
(TA)0.35(AL)0.65 |
| TA41IR59 |
CuAu (L10) |
L10 |
tP2 |
(123, P4/mmm) |
aka Ta0.82Ir1.18_rt, gamma. |
2 |
(TA)0.41(IR)0.59 |
| TA43IR57 |
TaIr |
|
oP12 |
(51, Pmma) |
aka Ta0.86Ir1.14, delta. |
2 |
(TA)0.43(IR, TA)0.57 |
| T1CUNITI_C11B |
MoSi2 (C11b) |
C11b |
tI6 |
(139, I4/mmm) |
the Cu-Ni-Ti ternary phase Tau1. |
2 |
(CU, NI)2(TI)1 |
| T2CUNITI |
Cu3Ti2 |
|
tP10 |
(129, P4/nmm) |
the Cu-Ni-Ti ternary phase Tau2. |
3 |
(CU)0.175(NI)2.825(TI)2 |
| T4CUNITI |
BaPb3 |
|
hR12 |
(166, R-3m) |
the Cu-Ni-Ti ternary phase Tau4. |
3 |
(CU)0.05(NI)0.7(TI)0.25 |
| T6CUNITI |
Unknown Structure |
|
|
|
the Cu-Ni-Ti ternary phase Tau6 |
3 |
(CU)0.25(NI)0.5(TI)0.25 |
| T1CUFETI_CU2TI |
Au2V |
|
oS12 |
(63, Cmcm) |
ternary Ti0.33FexCu0.67-x, Tau1. |
2 |
(CU, FE)2(TI)1 |
| T2CUFETI_CU3TI2 |
Cu3Ti2 |
|
tP10 |
(129, P4/nmm) |
ternary Ti0.4FexCu0.6-x, Tau2. |
2 |
(CU, FE)3(TI)2 |
| T3CUFETI_CU4TI3 |
Cu4Ti3 |
|
tI14 |
(139, I4/mmm) |
ternary Ti0.43FexCu0.57-x, Tau3. |
2 |
(CU, FE)4(TI)3 |
| T4CUFETI |
Unknown Structure |
|
|
|
ternary Ti0.37FexCu0.63-x, Tau4 |
2 |
(CU, FE)0.63(TI)0.37 |
| T5CUFETI |
Unknown Structure |
|
|
|
ternary Ti0.45FexCu0.55-x, Tau5. |
2 |
(CU, FE)0.55(TI)0.45 |
| TIZN5 |
Unknown Structure |
|
|
|
|
2 |
(TI)1(ZN)5 |
| TIZN10 |
Ti3Zn22 |
|
tP100 |
(135, P4_2/mbc) |
|
2 |
(TI)1(ZN)10 |
| TIZN15 |
TiZn16 |
|
oS68 |
(63, Cmcm) |
|
2 |
(TI)1(ZN)15 |
| V4ZN5 |
V4Zn5 |
|
tI18 |
(139, I4/mmm) |
|
2 |
(V)4(ZN)5 |
| Y2ZN17 |
Ni17Th2 |
|
hP38 |
(194, P6_3/mmc) |
|
2 |
(Y)2(ZN)17 |
| Y13ZN58 |
Y13Zn58 |
|
hP146 |
(194, P6_3/mmc) |
|
2 |
(Y)13(ZN)58 |
| YZN5 |
ErZn5 |
|
hP36 |
(194, P6_3/mmc) |
aka H_RZN5 |
2 |
(Y)1(ZN)5 |
| ZN12Y_D2B |
Mn12Th (D2b) |
D2b |
tI26 |
(139, I4/mmm) |
|
2 |
(ZN)12(Y)1 |
| ZN11Y3 |
Al11La3 |
|
oI28 |
(71, Immm) |
|
2 |
(ZN)11(Y)3 |
| ZN22ZR |
Zn22Zr |
|
cF184 |
(227, Fd-3m) |
|
2 |
(ZN)22(ZR)1 |
| ZN39ZR5 |
Zn39Zr5 |
|
mS88 |
(12, C2/m) |
|
2 |
(ZN)39(ZR)5 |
| ZN2ZR3 |
Zr3Al2 |
|
tP20 |
(136, P4_2/mnm) |
|
2 |
(ZN)2(ZR)3 |
| GAS |
Gas |
|
|
|
|
1 |
(, AL, AL1B1O2, AL1C1, AL1C2, AL1CU1, AL1N1, AL1O1, AL1O2, AL2, AL2C2, AL2O1, AL2O2, AL2O3, B, B1C1, B1C2, B1N1, B1O1, B1O2, B2, B2C1, B2O1, B2O2, B2O3, C, C1IR1, C1N1, C1N1O1, C1N1O1_NCO, C1N2_CNN, C1N2_NCN, C1O1, C1O2, C1RH1, C1SI1, C1SI2, C1SI3, C1SI4, C2, C2N1_CCN, C2N1_CNC, C2N2, C2O1, C2SI1, C2SI2, C2SI3, C3, C3N1, C3O2, C4, C4N1, C4N2, C4NI1O4, C5, C5FE1O5, C5N1, C60, C6MO1O6, C6N1, C6N2, C9N1, CO, CO1O1, CO2, CR, CR1N1, CR1O1, CR1O2, CR1O3, CR2, CR2O1, CR2O2, CR2O3, CU, CU1O1, CU2, FE, FE1O1, FE1O2, FE2, HF, HF1O1, HF1O2, IR, IR1O1, IR1O2, IR1O3, MN, MN1O1, MN1O2, MO, MO1N1, MO1O1, MO1O2, MO1O3, MO2, MO2O6, MO3O9, MO4O12, MO5O15, N, N1NB1, N1O1, N1O2, N1O3, N1SI1, N1SI2, N1TI1, N1V1, N1ZR1, N2, N2O1, N2O2, N2O3, N2O4, N2O5, N3, NB, NB1O1, NB1O2, NI, NI1O1, NI2, O, O10V4, O12W4, O15W5, O1RE1, O1RH1, O1RU1, O1SI1, O1SN1, O1TA1, O1TI1, O1V1, O1W1, O1Y1, O1Y2, O1ZN1, O1ZR1, O2, O2RE1, O2RH1, O2RU1, O2SI1, O2SI2, O2SN1, O2TA1, O2TI1, O2V1, O2W1, O2Y1, O2Y2, O2ZR1, O3, O3RE1, O3RU1, O3W1, O4RU1, O6RE2, O6W2, O7RE2, O8W3, O9W3, RE, RH, RU, SI, SI2, SI3, SN, SN2, TA, TI, TI2, V, W, Y, ZN, ZR, ZR2)1 |
| AF |
FeGaO3 |
|
oP40 |
(33, Pna2_1) |
This is Al2O3.Fe2O3. |
3 |
(AL+3)2(FE+3)2(O-2)6 |
| AL18B4O33 |
Al5BO9 |
|
oS60 |
(36, Cmc2_1) |
|
3 |
(AL+3)18(B+3)4(O-2)33 |
| AL4B2O9 |
Al4B1.5[BO3]0.5O7.5 |
|
mS124 |
(12, C2/m) |
|
3 |
(AL+3)4(B+3)2(O-2)9 |
| ALNB11O29 |
(Ti0.17Nb0.83)12O29 |
|
mS82 |
(12, C2/m) |
|
3 |
(AL+3)1(NB+5)11(O-2)29 |
| ALNB49O124 |
Unknown Structure |
|
|
|
|
3 |
(AL+3)1(NB+5)49(O-2)124 |
| ALPHA_SPINEL |
Hausmannite (Mn3O4) |
|
tI28 |
(141, I4_1/amd) |
With solubility of Al, Co, Cr, Cu, Fe, Mg and Ni. |
4 |
(CO+2, CU+2, MN+2, MN+3, NI+2)1(AL+3, CR+3, FE+3, MN+2, MN+3, VA)2(MN+2, VA)2(O-2)4 |
| ANDALUSITE |
Andalusite (Al2SiO5, S02) |
S02 |
oP32 |
(58, Pnnm) |
This is a high-pressure phase |
4 |
(AL+3)1(AL+3)1(SI+4)1(O-2)5 |
| APATITE |
Fluorapatite [Ca5F(PO4)3, H57] |
H57 |
hP42 |
(176, P6_3/m) |
This is Ca2(Gd,Y)8(SiO4)6O2 and Mg2(Gd,Y)8(SiO4)6O2 |
4 |
(VA, Y+3, ZR+4)4(Y+3)6(SIO4-4)6(O-2, VA)2 |
| B2O3 |
B2O3 |
|
hP15 |
(152, P3_121) |
|
2 |
(B+3)2(O-2)3 |
| BETA_V_O |
CoO |
|
tI4 |
(139, I4/mmm) |
|
2 |
(V)1(O, VA)1 |
| BRONZE |
Unknown Structure |
|
|
|
|
3 |
(V+4, V+5)2(O-2)5(FE+2, VA)1 |
| CA2SIO4_ALPHA_A |
Ca2SiO4 |
|
hP24 |
(194, P6_3/mmc) |
This is 2CaO.SiO2 and 3CaO.P2O5. |
3 |
(MN+2, Y+3)3(VA)1(BO3-3, SIO4-4)2 |
| CA2SIO4_ALPHA_PRIME |
K2CoCl4 |
|
oP84 |
(33, Pna2_1) |
This is Ca2SiO4. |
3 |
(FE+2, MN+2, Y+3)3(VA)1(BO3-3, SIO4-4)2 |
| CACO3 |
Calcite (CaCO3, G01) |
G01 |
hR30 |
(167, R-3c) |
This is (Ca,Fe,Mg)CO3. |
2 |
(FE+2)1(CO3-2)1 |
| CAF2_S1 |
Fluorite (CaF2, C1) |
C1 |
cF12 |
(225, Fm-3m) |
This is low temperature CaF2. |
2 |
(MN+2)1(O-2, VA)2 |
| CAF2_S2 |
Cotunnite (PbCl2, C23) |
C23 |
oP12 |
(62, Pnma) |
This is high temperature CaF2. |
2 |
(MN+2)1(O-2, VA)2 |
| CAMO3 |
CaTiO3 Pnma Perovskite |
|
oP20 |
(62, Pnma) |
This is CaHfO3, CaMnO3, CaTiO3, lt CaZrO3. |
3 |
(Y+3)1(Y+3)1(O-2)3 |
| CAV2O6 |
ThTi2O6 |
|
mS18 |
(12, C2/m) |
This is CaV2O6, CoV2O6, MgV2O6, MnV2O6 and NiV2O6. |
3 |
(CO+2, MN+2, NI+2)1(V+5)2(O-2)6 |
| CAZRO3_C |
Cubic Perovskite (CaTiO3, E21) |
E21 |
cP5 |
(221, Pm-3m) |
Ba(Hf,Zr)O3 and High-temperature Ca(Hf,Zr)O3. |
3 |
(Y+3)1(Y+3)1(O-2)3 |
| CLINO_PYROXENE |
Diopside [CaMg(SiO3)2, S41] |
S41 |
mS40 |
(15, C2/c) |
This is clino-enstatite (MgSiO3), clino-ferrosilit (FeSiO3), diopside (CaMgSi2O6), niopside (CaNiSi2O6), pigeonite ((Mg,Fe,Ca)Si2O6), hedenbergite (CaFeSi2O6) dissolving Co. |
4 |
(FE+2, NI+2)1(CO+2, FE+2, NI+2)1(SI+4)2(O-2)6 |
| COLUMBITE |
Columbite (FeNb2O6, E51) |
E51 |
oP36 |
(60, Pbcn) |
This is (Ca,Co,Fe,Mg,Mn)Nb2O6 with excess FeO and MgO. |
3 |
(CO+2, FE+2, MN+2)1(FE+2, NB+5)2(O-2, VA)6 |
| CORDIERITE |
Na0.04(Mg0.5Fe0.5)2Al4Si5O18 |
|
oS120 |
(66, Cccm) |
This is 2Al2O3.2MgO.5SiO2, 2Al2O3.2MnO.5SiO2 and 2Al2O3.2FeO.5SiO2 |
4 |
(AL+3)4(FE+2, MN+2)2(SI+4)5(O-2)18 |
| CORUNDUM |
Corundum (Al2O3, D51) |
D51 |
hR10 |
(167, R-3c) |
This is Al2O3, Cr2O3, Fe2O3, Ti2O3, V2O3 + (Co,Fe,Mg,Mn,Ni)TiO3 Ilmenite. |
2 |
(AL+3, CO+2, CR+3, FE+2, FE+3, MN+2, MN+3, NI+2, TI+3, TI+4, V+3, V+4, VA)2(O-2)3 |
| CR2P4O13 |
Cr2P4O13 |
|
mP76 |
(14, P2_1/c) |
This is Cr2P4O13, Cr2V4O13 and Fe2V4O13. |
3 |
(CR+3, FE+3)2(V+5)4(O-2)13 |
| CR2TI2O7 |
Unknown Structure |
|
|
|
with solubility of Al2O3 and Fe2O3. |
3 |
(AL+3, CR+3, FE+3)2(TI+4)2(O-2)7 |
| CRISTOBALITE |
Ideal beta-Cristobalite (SiO2, C9) |
C9 |
cF24 |
(227, Fd-3m) |
SiO2 with AlPO4 solubility. |
2 |
(SI+4)1(SIO4-4)1 |
| CRNB25O64 |
Unknown Structure |
|
|
|
|
3 |
(CR+3)1(NB+5)25(O-2)64 |
| CRNB49O124 |
Unknown Structure |
|
|
|
|
3 |
(CR+3)1(NB+5)49(O-2)124 |
| CRNB9O24 |
Unknown Structure |
|
|
|
|
3 |
(CR+3)1(NB+5)9(O-2)24 |
| CRNBO4 |
Rutile (TiO2, C4) |
C4 |
tP6 |
(136, P4_2/mnm) |
|
3 |
(CR+3, VA)1(CR+3, NB+5)1(O-2, VA)4 |
| CRVO4 |
MgSO4 |
|
oS24 |
(63, Cmcm) |
|
3 |
(CR+3)1(V+5)1(O-2)4 |
| CU2B4O7 |
Unknown Structure |
|
|
|
|
3 |
(CU+1)2(B+3)4(O-2)7 |
| CU2COO3 |
CaCu2O3 |
|
oP12 |
(59, Pmmn) |
|
3 |
(CO+2)1(CU+2)2(O-2)3 |
| CU2Y2O5 |
Cu2Ho2O5 |
|
oP36 |
(33, Pna2_1) |
|
3 |
(CU+2)2(Y+3)2(O-2)5 |
| CU3B2O6 |
Cu3B2O6 |
|
aP110 |
(2, P-1) |
|
3 |
(CU+2)3(B+3)2(O-2)6 |
| CU3NB2O8 |
Cu3(Ta0.5Nb0.5)2O8 |
|
aP13 |
(2, P-1) |
|
3 |
(CU+2)3(NB+5)2(O-2)8 |
| CUB2O4 |
CuB2O4 |
|
tI84 |
(122, I-42d) |
|
3 |
(CU+2)1(B+3)2(O-2)4 |
| CUB8O13 |
Unknown Structure |
|
|
|
|
3 |
(CU+2)1(B+3)8(O-2)13 |
| CUNB2O6 |
CuNb2O6 |
|
mP36 |
(14, P2_1/c) |
|
3 |
(CU+2)1(NB+5)2(O-2)6 |
| CUO |
Tenorite (CuO, B26) |
B26 |
mS8 |
(15, C2/c) |
|
2 |
(CO+2, CU+2)1(O-2)1 |
| CUPRITE |
Cuprite (Cu2O, C3) |
C3 |
cP6 |
(224, Pn-3m) |
This is Cu2O with solubility of Na. |
2 |
(CU+1)2(O-2)1 |
| DELAFOSSITE |
Rhombohedral Delafossite (CuFeO2) |
|
hR4 |
(166, R-3m) |
This is Cu(Al,B,Cr,Fe,La,Mn,Y)O2 |
3 |
(CU+1)1(AL+3, B+3, CR+3, FE+3, MN+3, Y+3)1(O-2)2 |
| DYMN2O5 |
HoMn2O5 |
|
oP32 |
(55, Pbam) |
This is Mn2(Gd, Y)O5. |
4 |
(Y+3)1(MN+3)1(MN+4)1(O-2)5 |
| FE3BO5 |
Fe3[BO3]O2 |
|
oP36 |
(55, Pbam) |
|
4 |
(FE+2)2(FE+3)1(B+3)1(O-2)5 |
| FE3BO6 |
Norbergite [Mg(F,OH)2 . Mg2SiO4, S07] |
S07 |
oP40 |
(62, Pnma) |
|
3 |
(FE+3)3(B+3)1(O-2)6 |
| FEB4O7 |
ZnB4O7 |
|
oS48 |
(63, Cmcm) |
|
3 |
(FE+2)1(B+3)4(O-2)7 |
| FEBO3 |
Calcite (CaCO3, G01) |
G01 |
hR10 |
(167, R-3c) |
|
3 |
(FE+3)1(B+3)1(O-2)3 |
| FENB14O36 |
Unknown Structure |
|
|
|
This is (Co, Fe)Nb14O36 |
3 |
(CO+2, FE+2)1(NB+5)14(O-2)36 |
| FENB25O64 |
Unknown Structure |
|
|
|
|
3 |
(FE+3)1(NB+5)25(O-2)64 |
| FENB36O91 |
Unknown Structure |
|
|
|
This is (Co, Fe)Nb36O91 |
3 |
(CO+2, FE+2)1(NB+5)36(O-2)91 |
| FENB49O124 |
Unknown Structure |
|
|
|
|
3 |
(FE+3)1(NB+5)49(O-2)124 |
| FENB68O171 |
Unknown Structure |
|
|
|
This is (Co, Fe)Nb68O171 |
3 |
(CO+2, FE+2)1(NB+5)68(O-2)171 |
| FENB9O24 |
Unknown Structure |
|
|
|
|
3 |
(FE+3)1(NB+5)9(O-2)24 |
| FEV2O6 |
Unknown Structure |
|
|
|
|
3 |
(FE+2)1(V+5)2(O-2)6 |
| FEVO4 |
Zn[MoO4] |
|
aP36 |
(2, P-1) |
This is FeVO4 and AlVO4. |
3 |
(AL+3, FE+3)1(V+5)1(O-2)4 |
| FLUORITE |
Fluorite (CaF2, C1) |
C1 |
cF12 |
(225, Fm-3m) |
This is cubic high temp HfO2 and ZrO2 |
2 |
(AL+3, CR+3, FE+2, HF+4, MN+2, MN+3, NB+5, NI+2, SI+4, TI+4, VA, Y+3, ZR, ZR+4)2(O-2, VA)4 |
| GARNET |
Orthorhombic Garnet |
|
oF320 |
(70, Fddd) |
This is Grossular, Uvarovite, Spessartine and Goldmanite Garnets and (Gd, Y,Yb)3(Al,Fe)5O12. |
4 |
(FE+2, MN+2, Y+3)3(AL+3, CR+3, FE+3, V+3)2(AL+3, CR+3, FE+3, SI+4)3(O-2)12 |
| HALITE |
Rock Salt (NaCl, B1) |
B1 |
cF8 |
(225, Fm-3m) |
This is BaO, CaO, CoO, FeO, MgO, MnO and NiO |
2 |
(AL+3, CO+2, CO+3, CR+3, CU+2, FE+2, FE+3, MN+2, MN+3, NI+2, NI+3, TI+4, V+3, VA, Y+3, ZR+4)1(O-2)1 |
| HATRURITE |
Ca3(SiO4)O-b |
|
hR81 |
(160, R3m) |
This is 3CaO.SiO2 |
3 |
(VA, Y+3)3(SIO4-4)1(O-2)1 |
| HFW2O8 |
Zr[WO4]2 |
|
cP44 |
(198, P2_13) |
|
3 |
(HF+4)1(W+6)2(O-2)8 |
| KYANITE |
Kyanite (Al2SiO5, S01) |
S01 |
aP32 |
(2, P-1) |
This is Al2O3.SiO2 |
4 |
(AL+3)1(AL+3)1(SI+4)1(O-2)5 |
| LAAP |
PrNiO3 |
|
hR10 |
(167, R-3c) |
This is Rhombohedral Perovskite: La(Al,Co)O3 with solubility of Ca, Cu, Ni, Y |
3 |
(Y+3)1(AL+3, CO+3, CU+2, FE+3, NI+2)1(O-2, VA)3 |
| LAYP |
CaTiO3 Pnma Perovskite |
|
oP20 |
(62, Pnma) |
This is an Orthorhombic Perovskite, La(Y,Yb)O3. |
3 |
(Y+3)1(VA, Y+3, ZR+4)1(O-2)3 |
| M2O3A |
La2O3 (D52) |
D52 |
hP5 |
(164, P-3m1) |
A-LA2O3. Also hexagonal A-type structure of Gd2O3. |
3 |
(HF+4, Y+3, ZR+4)2(O-2, VA)3(O-2, VA)1 |
| M2O3B |
B-Sm2O3 |
|
mS30 |
(12, C2/m) |
This is monoclinic B-type structure of R2O3 |
3 |
(AL+3, CO+3, HF+4, Y+3, ZR+4)2(O-2, VA)3(O-2, VA)1 |
| M2O3C |
Bixbyite (Mn2O3, D53) |
D53 |
cI80 |
(206, Ia-3) |
This is also cubic Gd2O3, Y2O3 and Yb2O3 |
3 |
(AL+3, CO+3, CR+3, FE+3, HF+4, MN+3, NI+2, TI+4, Y, Y+3, ZR+4)2(O-2, VA)3(O-2, VA)1 |
| M2O3H |
La2O3 (D52) |
D52 |
hP5 |
(164, P-3m1) |
H-La2O3. This is also hexagonal (Gd,Y,Yb)2O3. |
3 |
(HF+4, MN+3, Y, Y+3, ZR+4)2(O-2, VA)3(O-2, VA)1 |
| M2O3X |
Nd2O3 |
|
cI26 |
(229, Im-3m) |
X-LA2O3. This is also HT cubic X-type structure of Gd2O3. |
3 |
(HF+4, Y+3, ZR+4)2(O-2, VA)3(O-2, VA)1 |
| M4O7 |
Ti4O7-a |
|
aP22 |
(2, P-1) |
This is Ti4O7 and V4O7 with solubility of Al and Mn. |
2 |
(AL, MN, TI, V)4(O)7 |
| M6O11 |
Ti6O11 |
|
aP34 |
(2, P-1) |
This is Ti6O11 and V6O11. |
2 |
(TI, V)6(O)11 |
| M7O13 |
Ti7O13 |
|
aP40 |
(2, P-1) |
This is Ti7O13 and V7O13. |
2 |
(TI, V)7(O)13 |
| M8O15 |
Ti8O15 |
|
aP46 |
(2, P-1) |
This is Ti8O15 and V8O15. |
2 |
(TI, V)8(O)15 |
| MG2B2O5 |
Co2B2O5 |
|
aP18 |
(2, P-1) |
This is (Co,Fe,Mg, Ni)2B2O5 |
3 |
(CO+2, FE+2, NI+2)2(B+3)2(O-2)5 |
| MG2V2O7 |
Co2[V2O7] |
|
mP44 |
(14, P2_1/c) |
This is Co2V2O7, Mg2V2O7 and Ni2V2O7. |
3 |
(CO+2, NI+2)2(V+5)2(O-2)7 |
| MG3V2O8 |
Ni3[VO4]2 |
|
oS52 |
(64, Cmce) |
This is Co3V2O8, Mg3V2O8 and Ni3V2O8. |
3 |
(CO+2, NI+2)3(V+5)2(O-2)8 |
| MGWO4_TYPE |
Huanzalaite (MgWO4, H06) |
H06 |
mP12 |
(13, P2/c) |
This is (Al,Fe)NbO4 and (Co,Fe,Mg,Mn,Ni)WO4. |
3 |
(AL+3, CO+2, FE+2, FE+3, MN+2, NB+5, NI+2, VA)1(NB+5, W+6)1(O-2)4 |
| MN2B4O9 |
Unknown Structure |
|
|
|
|
3 |
(MN+3)2(B+3)4(O-2)9 |
| MN2V2O7 |
Thortveitite ([Sc,Y]2Si2O7, S21) |
S21 |
mS22 |
(12, C2/m) |
|
3 |
(MN+2)2(V+5)2(O-2)7 |
| MN4NB2O9 |
Nb2Mn4O9 |
|
hP30 |
(165, P-3c1) |
This is (Co,Fe, Mg,Mn)4Nb2O9. |
3 |
(CO+2, FE+2, MN+2)4(NB+5)2(O-2)9 |
| MNB2O4 |
Unknown Structure |
|
|
|
|
3 |
(MN+2)1(B+3)2(O-2)4 |
| MNB3O6 |
Unknown Structure |
|
|
|
|
3 |
(MN+3)1(B+3)3(O-2)6 |
| MNB4O7 |
Unknown Structure |
|
|
|
|
3 |
(MN+2)1(B+3)4(O-2)7 |
| MNB6O10 |
Unknown Structure |
|
|
|
|
3 |
(MN+2)1(B+3)6(O-2)10 |
| MNBO3 |
Unknown Structure |
|
|
|
|
3 |
(MN+3)1(B+3)1(O-2)3 |
| MNYO3_HEX |
LuMnO3 |
|
hP30 |
(185, P6_3cm) |
|
3 |
(Y+3)1(MN+3)1(O-2)3 |
| MO4O11 |
Mo4O11 |
|
oP60 |
(33, Pna2_1) |
|
3 |
(MO+4)1(MO+6)3(O-2)11 |
| MO8O23 |
High-Temperature Mo8O23 |
|
mP62 |
(13, P2/c) |
|
3 |
(MO+4)1(MO+6)7(O-2)23 |
| MO9O26 |
Mo9O26 |
|
mP70 |
(13, P2/c) |
|
3 |
(MO+4)1(MO+6)8(O-2)26 |
| MOO3 |
gamma-WO3 |
|
mP32 |
(14, P2_1/c) |
|
2 |
(MO+6)1(O-2)3 |
| MULLITE |
Al(Al0.7Si0.3)2O4.8 |
|
oP24 |
(55, Pbam) |
With solubility of B, Cr and Fe. |
4 |
(AL+3)1(AL+3, CR+3, FE+3)1(AL+3, B+3, SI+4)1(O-2, VA)5 |
| NB2O5 |
Nb2O5 |
|
mP99 |
(10, P2/m) |
|
2 |
(NB+5, V+5, ZR+4)2(O-2, VA)5 |
| NB3BO9 |
Unknown Structure |
|
|
|
|
3 |
(NB+5)3(B+3)1(O-2)9 |
| NBO1 |
NbO |
|
cP6 |
(221, Pm-3m) |
|
2 |
(NB+2)1(O-2)1 |
| NBO2 |
alpha-NbO2 |
|
tI96 |
(88, I4_1/a) |
This is NbO2 |
2 |
(FE+2, NB+4, NB+5)1(O-2)2 |
| NI3B2O6 |
Kotoite (Mg3(BO3)2) |
|
oP22 |
(58, Pnnm) |
This is (Co,Mg,Ni)3B2O6 |
3 |
(CO+2, NI+2)3(B+3)2(O-2)6 |
| NI4NB2O9 |
Nb2Ni4O9 |
|
oF480 |
(43, Fdd2) |
|
3 |
(NI+2)4(NB+5)2(O-2)9 |
| NI6MNO8_TYPE |
Mg6MnO8 |
|
cF60 |
(225, Fm-3m) |
This is (Mg, Ni)6MnO8, with an ordered NaCl-type structure. |
3 |
(NI+2)6(MN+4)1(O-2)8 |
| NIMNO3 |
Ilmenite (FeTiO3, E22) |
E22 |
hR10 |
(148, R-3) |
This is NiMnO3 with Ilmenite structure |
2 |
(MN+3, MN+4, NI+2)2(O-2)3 |
| NINB14O36 |
Unknown Structure |
|
|
|
|
3 |
(NI+2)1(NB+5)14(O-2)36 |
| NINB2O6 |
Columbite (FeNb2O6, E51) |
E51 |
oP36 |
(60, Pbcn) |
|
3 |
(NB+5, NI+2, VA)1(NB+5, NI+2)2(O-2, VA)6 |
| NINB36O91 |
Unknown Structure |
|
|
|
|
3 |
(NI+2)1(NB+5)36(O-2)91 |
| NINB68O171 |
Unknown Structure |
|
|
|
|
3 |
(NI+2)1(NB+5)68(O-2)171 |
| OLIVINE |
Forsterite (Mg2SiO4, S12) |
S12 |
oP28 |
(62, Pnma) |
This is Calcio-olivine (Ca2SiO4) - Co2SiO4 - Fayalite (Fe2SiO4) - Forsterite (Mg2SiO4) - Tephroite (Mn2SiO4) - Ni2SiO4 - Kirschsteinite (CaFeSiO4) - Monticellite (CaMgSiO4) solid solution dissolving Cr and Cu. |
4 |
(CO+2, CR+2, CU+2, FE+2, MN+2, NI+2)1(CO+2, CR+2, CU+2, FE+2, MN+2, NI+2)1(SI+4)1(O-2)4 |
| ORTHO_PYROXENE |
Enstatite (MgSiO3, S43) |
S43 |
oP80 |
(61, Pbca) |
This is enstatite (MgSiO3) and ortho-diopside (CaMgSi2O6) with Fe solubility. |
4 |
(FE+2)1(FE+2)1(SI+4)2(O-2)6 |
| PROTO_PYROXENE |
MgSiO3 |
|
oP40 |
(60, Pbcn) |
This is proto- enstatite (MgSiO3) and proto-diopside (CaMgSi2O6) dissolving Co, Cr, and Fe. |
3 |
(CO+2, CR+2, FE+2, NI+2)1(SI+4)1(O-2)3 |
| PSEUDO_BROOKITE |
Pseudobrookite (Fe2TiO5, E41) |
E41 |
oS32 |
(63, Cmcm) |
This is Fe2TiO5, Ti3O5, Al2TiO5 and (Co,Fe,Mg,Mn)Ti2O5. |
3 |
(AL+3, CO+2, FE+2, FE+3, MN+2, NI+2, SI+4, TI+3, TI+4, V+3)1(AL+3, FE+3, SI+4, TI+3, TI+4)2(O-2)5 |
| PYROCHLORE |
Cubic Pyrochlore (Eu2Ir2O7, E81) |
E81 |
cF88 |
(227, Fd-3m) |
This is (Gd,La)2(Hf,Zr)2O7 and (Gd,La,Y,Yb)2Ti2O7. |
5 |
(HF+4, TI+4, Y+3, ZR+4)2(HF+4, TI+4, Y+3, ZR+4)2(O-2, VA)6(O-2)1(O-2, VA)1 |
| QUARTZ |
alpha-Quartz (low Quartz) |
|
hP9 |
(152, P3_121) |
SiO2 with AlPO4 solubility. |
2 |
(SI+4)1(SIO4-4)1 |
| RH2O3_D51 |
Corundum (Al2O3, D51) |
D51 |
hR10 |
(167, R-3c) |
|
2 |
(RH+3)2(O-2)3 |
| RHO2_C4 |
Rutile (TiO2, C4) |
C4 |
tP6 |
(136, P4_2/mnm) |
|
2 |
(RH+4)1(O-2)2 |
| RHODONITE |
Rhodonite (MnSiO3-b) |
|
aP50 |
(2, P-1) |
This is MnO.SiO2 |
3 |
(CO+2, FE+2, MN+2)1(SI+4)1(O-2)3 |
| RUTILE |
Rutile (TiO2, C4) |
C4 |
tP6 |
(136, P4_2/mnm) |
This is MnO2, TiO2 and ht-VO2. |
2 |
(AL+3, CR+3, HF+4, MN+4, RU+4, SN+4, TA+5, TI+3, TI+4, V+4, ZR+4)1(O-2, VA)2 |
| SILLIMANITE |
Sillimanite (Al2SiO5, S03) |
S03 |
oP32 |
(62, Pnma) |
This is a high-pressure phase |
4 |
(AL+3)1(AL+3)1(SI+4)1(O-2)5 |
| SPINEL |
Spinel (Al2MgO4, H11) |
H11 |
cF56 |
(227, Fd-3m) |
This is MgAl2O4, Fe3O4, Mn3O4 (ht) and many more. |
4 |
(AL+3, CO+2, CO+3, CR+2, CR+3, CU+2, FE+2, FE+3, MN+2, NI+2)1(AL+3, CO+2, CO+3, CR+3, CU+2, FE+2, FE+3, MN+2, MN+3, MN+4, MO+4, NI+2, TI+3, TI+4, V+3, VA)2(CR+2, FE+2, MN+2, VA)2(O-2)4 |
| TI10O19 |
Unknown Structure |
|
|
|
|
2 |
(TI)10(O)19 |
| TI20O39 |
Ti20O39 |
|
aP118 |
(2, P-1) |
|
2 |
(TI)20(O)39 |
| TI2NB10O29 |
(Ti0.17Nb0.83)12O29 |
|
mS82 |
(12, C2/m) |
|
3 |
(TI+4)2(NB+5)10(O-2)29 |
| TI3O2 |
(Ti3O2) |
|
hP5 |
(191, P6/mmm) |
|
3 |
(TI+2)2(TI)1(O-2)2 |
| TI5O9 |
Ti5O9 |
|
aP28 |
(2, P-1) |
Ti5O9 with solubility of V. |
2 |
(TI, V)5(O)9 |
| TI9O17 |
Ti9O17 |
|
aP52 |
(2, P-1) |
|
2 |
(TI)9(O)17 |
| TINB24O62 |
(Ti0.04Nb0.96)25O62 |
|
mS174 |
(5, C2) |
|
3 |
(TI+4)1(NB+5)24(O-2)62 |
| TINB2O7 |
(Ti0.33Nb0.67)3O7 |
|
mS60 |
(12, C2/m) |
|
3 |
(TI+4)1(NB+5)2(O-2)7 |
| TIO_ALPHA |
alpha-TiO |
|
mS20 |
(12, C2/m) |
|
2 |
(TI+2)1(O-2)1 |
| TRIDYMITE |
Monoclinic (Cc) Low Tridymite (SiO2) |
|
mS144 |
(9, Cc) |
SiO2 with AlPO4 solubility. |
2 |
(SI+4)1(SIO4-4)1 |
| V2O5 |
Shcherbinaite (V2O5) (Revised) |
|
oP14 |
(59, Pmmn) |
|
2 |
(V+5)2(O-2)5 |
| V2O_SS |
V7O3 |
|
mS20 |
(12, C2/m) |
|
2 |
(V)1(O, VA)0.5 |
| V3O5_HT |
V3O5-ht |
|
mS32 |
(15, C2/c) |
This is ht-V3O5 with solubility of Al, Cr, Mg, Mn and Ti. |
2 |
(AL, CR, MN, TI, V)3(O)5 |
| V3O5_LT |
V3O5-lt |
|
mP32 |
(13, P2/c) |
|
2 |
(V)3(O)5 |
| V3O7 |
V3O7 |
|
mS120 |
(15, C2/c) |
|
2 |
(V)3(O)7 |
| V52O64 |
V13O16 |
|
tI116 |
(141, I4_1/amd) |
|
2 |
(V)52(O)64 |
| V5O9 |
Ti5O9 |
|
aP28 |
(2, P-1) |
V5O9 with solubility of Ti. |
2 |
(TI, V)5(O)9 |
| V6O13 |
V6O13 |
|
mS38 |
(12, C2/m) |
|
2 |
(V)6(O)13 |
| VO2_LT |
VO2 |
|
mP12 |
(14, P2_1/c) |
This is lt-VO2, MoO2 and WO2. |
2 |
(MO+4, V+4, W+4)1(O-2)2 |
| WO2_72 |
Unknown Structure |
|
|
|
|
1 |
(O2_72W1)1 |
| WO2_90 |
Unknown Structure |
|
|
|
|
1 |
(O2_90W1)1 |
| WO2_96 |
Unknown Structure |
|
|
|
|
1 |
(O2_96W1)1 |
| WO3_HT |
WO2.95 |
|
tP16 |
(113, P-42_1m) |
|
2 |
(W+6)1(O-2)3 |
| WO3_LT |
WO3 |
|
oP32 |
(60, Pbcn) |
|
2 |
(W+6)1(O-2)3 |
| WOLLASTONITE |
Wollastonite (CaSiO3) |
|
aP30 |
(2, P-1) |
This is CaO.SiO2 with Ba, Fe, Mg and Mn solubility |
3 |
(FE+2, MN+2)1(SI+4)1(O-2)3 |
| Y2S2A_Y2SI2O7 |
Thortveitite ([Sc,Y]2Si2O7, S21) |
S21 |
mS22 |
(12, C2/m) |
Y2Si2O7 |
3 |
(Y+3)1(Y+3)1(SI2O7-6)1 |
| Y2S2B_Y2SI2O7 |
La4Ge3[GeO4]O10 |
|
aP44 |
(2, P-1) |
(Y,Yb)2Si2O7 solid solution. |
2 |
(Y+3)2(SI2O7-6)1 |
| Y2S2D_Y2SI2O7 |
Possible delta-Y2Si2O7 |
|
oP44 |
(62, Pnma) |
Y2Si2O7 with Yb solubility. |
2 |
(Y+3)2(SI2O7-6)1 |
| Y2S2G_Y2SI2O7 |
Y2Si2O7-b |
|
mP22 |
(14, P2_1/c) |
Y2Si2O7-b with Yb solubility. |
2 |
(Y+3)2(SI2O7-6)1 |
| Y2SIO5 |
Y2SiO5 (RE2SiO5 X2) |
|
mS64 |
(15, C2/c) |
This is (Y,Yb)2SiO5 |
3 |
(Y+3)2(SIO4-4)1(O-2)1 |
| Y2TIO5 |
La2TiO5 |
|
oP32 |
(62, Pnma) |
This is (Gd,La, Y)2TiO5 |
3 |
(Y+3)2(TI+4)1(O-2)5 |
| Y3NBO7 |
Fluorite (CaF2, C1) |
C1 |
cF12 |
(225, Fm-3m) |
|
3 |
(NB+5, VA, Y+3)3(NB+5, Y+3)1(O-2, VA)7 |
| YAM |
Y4Al2O9 |
|
mP60 |
(14, P2_1/c) |
This is Y4Al2O9, Gd4Al2O9 and Ca2Y2Si2O9 (Cuspidine) |
4 |
(AL+3, SI+4)2(Y+3)4(O-2, VA)1(O-2)9 |
| YAP |
CaTiO3 Pnma Perovskite |
|
oP20 |
(62, Pnma) |
This is Y(Al,Co,Cr,Fe)O3, YbFeO3 and Gd(Al,Co,Cr,Fe)O3. |
3 |
(AL+3, CO+3, CR+3, FE+3, MN+3)1(Y+3)1(O-2)3 |
| YBO3 |
Unknown Structure |
|
|
|
This is (Y, Yb)BO3 solid solution. |
3 |
(Y+3)1(B+3)1(O-2)3 |
| YNBO4 |
LaNbO4 |
|
mS24 |
(15, C2/c) |
|
3 |
(NB+5, VA, Y+3)1(NB+5, Y+3)1(O-2, VA)4 |
| ZIRCON |
Zircon (ZrSiO4, S11) |
S11 |
tI24 |
(141, I4_1/amd) |
This is HfSiO4, ZrSiO4, GdPO4, LaPO4 and YPO4. |
3 |
(SI+4)1(HF+4, Y+3, ZR+4)1(O-2, VA)4 |
| ZR11NB4O32 |
Unknown Structure |
|
|
|
|
3 |
(ZR+4)11(NB+5)4(O-2)32 |
| ZR13NB4O36 |
Unknown Structure |
|
|
|
|
3 |
(ZR+4)13(NB+5)4(O-2)36 |
| ZR15NB4O40 |
Unknown Structure |
|
|
|
|
3 |
(ZR+4)15(NB+5)4(O-2)40 |
| ZR3Y4O12 |
UY6O12 |
|
hR19 |
(148, R-3) |
Zr3(Y,Yb)4O12 and Hf3Yb4O12. |
3 |
(HF+4, ZR+4)3(Y+3)4(O-2)12 |
| ZR5NB2O15 |
Unknown Structure |
|
|
|
|
3 |
(ZR+4)5(NB+5)2(O-2)15 |
| ZR6NB2O17 |
Nb2Zr6O17 |
|
oI100 |
(46, Ima2) |
|
3 |
(ZR+4)6(NB+5)2(O-2)17 |
| ZR7NB2O19 |
Unknown Structure |
|
|
|
|
3 |
(ZR+4)7(NB+5)2(O-2)19 |
| ZR8NB2O21 |
Unknown Structure |
|
|
|
|
3 |
(ZR+4)8(NB+5)2(O-2)21 |
| ZRO2_MONO |
Baddeleyite (ZrO2, C43) |
C43 |
mP12 |
(14, P2_1/c) |
This is Monoclinic HfO2 and ZrO2 |
2 |
(AL+3, CR+3, HF+4, TI+4, Y+3, ZR+4)2(O-2, VA)4 |
| ZRO2_TETR |
HgI2 (C13) |
C13 |
tP6 |
(137, P4_2/nmc) |
This is Tetragonal HfO2 and ZrO2 |
2 |
(AL+3, CR+3, FE+2, HF+4, MN+2, MN+3, NB+5, NI+2, TI+4, VA, Y+3, ZR+4)2(O-2, VA)4 |
| ZRTI2O6 |
Columbite (FeNb2O6, E51) |
E51 |
oP36 |
(60, Pbcn) |
|
3 |
(ZR+4)1(TI+4)2(O-2)6 |
| ZRTIO4_ALPHA |
Unknown Structure |
|
|
|
|
3 |
(ZR+4)1(TI+4)1(O-2)4 |
| ZRTIO4_BETA |
zeta-Fe2N |
|
oP12 |
(60, Pbcn) |
This is (Hf, Zr)TiO4 solid solution with Al solubility. |
3 |
(AL+3, HF+4, TI+4, ZR+4)2(AL+3, VA)1(O-2)4 |
| IR1O2 |
Rutile (TiO2, C4) |
C4 |
tP6 |
(136, P4_2/mnm) |
|
1 |
(IR1O2)1 |
| ZNO |
Wurtzite (ZnS, B4) |
B4 |
hP4 |
(186, P6_3mc) |
|
1 |
(O1ZN1)1 |
| RE2O7 |
Re2O7 |
|
oP72 |
(19, P2_12_12_1) |
|
1 |
(O7RE2)1 |
| REO2 |
ReO2 |
|
mP14 |
(14, P2_1/c) |
|
1 |
(O2RE1)1 |
| REO3 |
alpha-ReO3 (D09) |
D09 |
cP4 |
(221, Pm-3m) |
|
1 |
(O3RE1)1 |
| TA2O5_HT |
Ta2O5-ht |
|
tI44 |
(141, I4_1/amd) |
|
2 |
(TA)2(O)5 |
| TA2O5_LT |
beta-Ta2O5 |
|
oP14 |
(49, Pccm) |
|
2 |
(TA)2(O)5 |