Cordierite Schwartz K B, Leong D B, McConville R L Physics and Chemistry of Minerals 20 (1994) 563-574 Structural chemistry of synthetic cordierite: evidence for solid solutions and disordered compositional domains in Bi-flux-grown Mg-cordierites Sample: Synthesized in 10 at% bismuth oxide flux at 1000 C for 12 hours Note: tetrahedral site occupancies are assumed, not refined _database_code_amcsd 0007857 CELL PARAMETERS: 17.0409 9.7382 9.3285 90.000 90.000 90.000 SPACE GROUP: Cccm X-RAY WAVELENGTH: 1.541838 Cell Volume: 1548.043 Density (g/cm3): 2.639 MAX. ABS. INTENSITY / VOLUME**2: 6.096270299 RIR: 0.752 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 10.38 57.57 8.5204 2 0 0 2 10.46 100.00 8.4550 1 1 0 4 18.08 16.60 4.9066 3 1 0 4 18.22 8.25 4.8691 0 2 0 2 19.03 15.54 4.6642 0 0 2 2 20.85 5.18 4.2602 4 0 0 2 21.01 3.68 4.2275 2 2 0 4 21.72 10.34 4.0913 2 0 2 4 21.76 61.52 4.0840 1 1 2 8 26.36 69.05 3.3806 3 1 2 8 26.46 44.21 3.3682 0 2 2 4 27.73 2.26 3.2169 5 1 0 4 27.83 3.78 3.2062 4 2 0 4 28.37 33.79 3.1456 4 0 2 4 28.50 94.13 3.1323 2 2 2 8 29.37 53.43 3.0411 5 1 1 8 29.46 44.14 3.0321 4 2 1 8 29.61 52.31 3.0173 1 3 1 8 31.50 2.35 2.8401 6 0 0 2 31.75 1.72 2.8183 3 3 0 4 33.85 14.15 2.6481 5 1 2 8 33.93 14.08 2.6422 4 2 2 8 34.06 7.25 2.6324 1 3 2 8 36.63 7.63 2.4533 6 2 0 4 36.92 5.67 2.4346 0 4 0 2 37.06 1.79 2.4258 6 0 2 4 37.28 1.93 2.4122 3 3 2 8 38.29 1.34 2.3505 5 3 0 4 38.46 1.65 2.3409 2 4 0 4 38.61 21.14 2.3321 0 0 4 2 39.35 1.74 2.2895 7 1 1 8 39.54 1.90 2.2793 5 3 1 8 39.70 1.06 2.2705 2 4 1 8 40.11 1.71 2.2482 1 1 4 8 40.34 1.83 2.2357 5 1 3 8 40.41 1.75 2.2322 4 2 3 8 40.52 1.88 2.2262 1 3 3 8 41.59 8.67 2.1713 6 2 2 8 41.86 2.40 2.1582 0 4 2 4 42.92 2.73 2.1070 7 1 2 8 42.94 3.29 2.1063 3 1 4 8 43.00 1.60 2.1033 0 2 4 4 43.09 4.48 2.0991 5 3 2 8 43.24 7.06 2.0922 2 4 2 8 46.54 1.66 1.9515 8 2 0 4 46.64 2.89 1.9476 7 3 0 4 46.89 3.97 1.9376 8 0 2 4 46.96 1.50 1.9350 1 5 0 4 47.21 4.76 1.9253 4 4 2 8 47.60 1.82 1.9102 8 2 1 8 48.35 1.12 1.8824 1 3 4 8 48.40 5.59 1.8808 7 1 3 8 48.55 8.81 1.8751 5 3 3 8 48.69 8.02 1.8702 2 4 3 8 49.01 3.71 1.8586 9 1 0 4 49.30 3.58 1.8484 6 4 0 4 49.47 4.06 1.8424 3 5 0 4 50.04 1.42 1.8228 9 1 1 8 50.32 3.91 1.8132 6 4 1 8 50.49 2.79 1.8074 3 5 1 8 50.65 5.20 1.8024 6 0 4 4 50.82 10.55 1.7967 3 3 4 8 53.04 1.17 1.7266 9 1 2 8 53.31 1.39 1.7184 6 4 2 8 53.47 1.03 1.7135 3 5 2 8 53.79 5.88 1.7041 10 0 0 2 54.25 7.46 1.6910 5 5 0 4 54.27 26.70 1.6903 6 2 4 8 54.49 15.60 1.6841 0 4 4 4 55.36 1.92 1.6594 7 1 4 8 55.60 2.75 1.6530 8 2 3 8 55.97 1.34 1.6429 1 5 3 8 56.24 1.74 1.6355 9 3 0 4 56.72 1.68 1.6230 0 6 0 2 57.12 1.08 1.6126 4 2 5 8 57.21 1.06 1.6103 1 3 5 8 57.28 3.73 1.6084 10 2 0 4 57.49 2.71 1.6031 8 4 0 4 57.79 4.26 1.5954 9 1 3 8 57.83 2.68 1.5944 2 6 0 4 58.05 7.99 1.5889 6 4 3 8 58.21 4.96 1.5850 3 5 3 8 58.97 1.79 1.5662 4 4 4 8 59.45 4.17 1.5547 0 0 6 2 59.93 2.43 1.5434 9 3 2 8 60.39 2.14 1.5329 0 6 2 4 60.93 1.32 1.5206 10 2 2 8 61.99 1.04 1.4970 4 6 1 8 62.01 3.38 1.4967 8 2 4 8 62.09 4.03 1.4949 7 3 4 8 62.35 3.02 1.4892 1 5 4 8 62.68 3.81 1.4821 3 1 6 8 62.73 1.86 1.4811 0 2 6 4 63.72 1.25 1.4605 4 0 6 4 63.78 3.87 1.4592 2 2 6 8 64.05 2.39 1.4537 11 1 2 8 64.44 5.68 1.4459 7 5 2 8 64.62 2.77 1.4424 4 6 2 8 66.33 2.90 1.4092 6 6 0 4 66.83 2.40 1.3998 5 1 6 8 66.88 2.84 1.3989 4 2 6 8 66.96 1.87 1.3975 1 3 6 8 68.54 1.08 1.3690 5 5 4 8 68.87 1.70 1.3633 12 2 0 4 69.15 7.92 1.3585 12 0 2 4 69.20 1.58 1.3576 9 5 0 4 69.57 1.88 1.3512 3 7 0 4 69.71 2.53 1.3489 12 2 1 8 69.71 12.18 1.3489 6 6 2 8 70.04 3.23 1.3435 9 5 1 8 70.41 3.18 1.3373 3 7 1 8 71.22 6.30 1.3241 10 2 4 8 71.40 4.56 1.3211 8 4 4 8 71.67 1.49 1.3167 9 1 5 8 71.71 4.09 1.3162 2 6 4 8 71.89 4.02 1.3132 6 2 6 8 71.90 1.93 1.3131 6 4 5 8 72.04 1.10 1.3109 3 5 5 8 72.08 1.47 1.3103 0 4 6 4 72.19 1.71 1.3085 12 2 2 8 72.51 1.25 1.3035 9 5 2 8 72.83 1.45 1.2986 7 1 6 8 72.88 1.51 1.2979 3 7 2 8 72.95 1.37 1.2967 5 3 6 8 73.06 1.47 1.2951 2 4 6 8 74.40 4.21 1.2751 11 3 3 8 74.50 1.39 1.2736 10 4 3 8 75.00 3.21 1.2664 1 7 3 8 75.74 1.72 1.2558 8 0 6 4 75.98 2.14 1.2524 4 4 6 8 76.58 1.21 1.2442 9 5 3 8 76.93 1.06 1.2393 3 7 3 8 77.54 3.61 1.2312 5 1 7 8 77.58 2.60 1.2306 4 2 7 8 77.65 2.78 1.2296 1 3 7 8 80.02 1.07 1.1991 11 3 4 8 80.12 3.64 1.1978 10 4 4 8 80.61 1.64 1.1918 1 7 4 8 81.06 4.30 1.1863 12 4 2 8 81.77 1.83 1.1778 0 8 2 4 81.84 2.75 1.1769 12 2 4 8 82.15 1.58 1.1733 9 5 4 8 82.50 2.41 1.1692 3 7 4 8 82.77 5.56 1.1661 0 0 8 2 84.67 1.29 1.1448 14 2 2 8 86.34 1.22 1.1269 9 3 6 8 86.73 1.32 1.1227 0 6 6 4 89.22 1.23 1.0977 9 5 5 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.