Hsianghualite Rastsvetaeva R K, Rekhlova O Y, Andrianov V I, Malinovskii Y A Soviet Physics Doklady 36 (1991) 11-13 Crystal structure of hsianghualite Locality: China _database_code_amcsd 0015620 CELL PARAMETERS: 12.8640 12.8640 12.8640 90.000 90.000 90.000 SPACE GROUP: I2_13 X-RAY WAVELENGTH: 1.541838 Cell Volume: 2128.767 Density (g/cm3): 2.966 MAX. ABS. INTENSITY / VOLUME**2: 9.401259532 RIR: 1.032 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 16.88 14.36 5.2517 2 1 1 12 19.52 27.06 4.5481 2 2 0 12 21.85 7.17 4.0680 3 0 1 12 21.85 5.37 4.0680 3 1 0 12 23.96 20.11 3.7135 2 2 2 4 25.92 28.33 3.4380 3 2 1 12 25.92 27.65 3.4380 3 1 2 12 27.74 31.52 3.2160 4 0 0 6 29.46 7.39 3.0321 3 3 0 12 31.09 4.76 2.8765 4 0 2 12 31.09 6.78 2.8765 4 2 0 12 32.65 100.00 2.7426 3 3 2 12 34.15 29.45 2.6259 4 2 2 12 35.59 1.97 2.5228 5 0 1 12 35.59 6.62 2.5228 4 3 1 12 38.32 15.74 2.3486 5 2 1 12 38.32 10.41 2.3486 5 1 2 12 39.63 2.43 2.2741 4 4 0 12 40.91 23.57 2.2062 5 0 3 12 40.91 37.26 2.2062 5 3 0 12 43.36 21.79 2.0868 5 3 2 12 43.36 22.35 2.0868 5 2 3 12 43.36 1.39 2.0868 6 1 1 12 44.55 1.56 2.0340 6 0 2 12 44.55 2.46 2.0340 6 2 0 12 45.71 1.56 1.9850 5 4 1 12 46.85 1.46 1.9393 6 2 2 12 47.96 2.37 1.8967 6 3 1 12 47.96 6.27 1.8967 6 1 3 12 49.06 2.59 1.8568 4 4 4 4 50.14 5.28 1.8192 5 4 3 12 50.14 5.10 1.8192 5 3 4 12 50.14 3.80 1.8192 7 1 0 12 51.21 9.80 1.7839 6 0 4 12 51.21 11.01 1.7839 6 4 0 12 52.26 14.18 1.7506 5 5 2 12 52.26 4.56 1.7506 7 2 1 12 52.26 6.46 1.7506 7 1 2 12 52.26 7.45 1.7506 6 3 3 12 53.29 1.44 1.7190 6 2 4 12 54.31 9.91 1.6891 7 0 3 12 54.31 1.76 1.6891 7 3 0 12 56.31 2.22 1.6337 6 1 5 12 56.31 1.30 1.6337 7 3 2 12 57.30 6.84 1.6080 8 0 0 6 58.27 1.22 1.5834 5 5 4 12 58.27 6.66 1.5834 7 4 1 12 58.27 1.19 1.5834 7 1 4 12 59.23 6.61 1.5600 8 0 2 12 59.23 4.97 1.5600 8 2 0 12 60.18 1.17 1.5375 6 3 5 12 61.13 1.57 1.5160 8 2 2 12 61.13 2.25 1.5160 6 6 0 12 62.06 1.22 1.4954 7 3 4 12 62.06 5.08 1.4954 7 0 5 12 62.06 1.84 1.4954 7 5 0 12 63.91 1.38 1.4566 7 2 5 12 66.63 1.77 1.4036 8 4 2 12 66.63 1.05 1.4036 8 2 4 12 67.53 1.16 1.3872 7 6 1 12 67.53 1.27 1.3872 9 1 2 12 67.53 1.16 1.3872 7 1 6 12 67.53 1.12 1.3872 6 5 5 12 68.41 5.45 1.3713 6 6 4 12 69.30 1.87 1.3560 7 5 4 12 69.30 1.93 1.3560 7 4 5 12 69.30 3.75 1.3560 8 5 1 12 71.05 3.47 1.3268 9 3 2 12 71.05 4.85 1.3268 9 2 3 12 71.05 1.59 1.3268 7 3 6 12 71.91 1.06 1.3129 8 4 4 12 72.78 1.54 1.2995 8 3 5 12 72.78 1.16 1.2995 8 5 3 12 74.49 1.95 1.2737 7 7 2 12 76.19 1.01 1.2495 9 4 3 12 76.19 1.12 1.2495 9 0 5 12 77.88 3.84 1.2265 10 3 1 12 77.88 3.38 1.2265 10 1 3 12 77.88 1.33 1.2265 7 6 5 12 77.88 1.59 1.2265 9 2 5 12 77.88 1.93 1.2265 7 5 6 12 79.56 1.14 1.2048 8 1 7 12 79.56 1.57 1.2048 8 7 1 12 82.06 1.48 1.1743 10 2 4 12 82.89 3.51 1.1647 8 7 3 12 82.89 1.92 1.1647 9 5 4 12 82.89 2.85 1.1647 8 3 7 12 84.55 1.12 1.1460 11 2 1 12 84.55 1.40 1.1460 10 1 5 12 84.55 1.62 1.1460 10 5 1 12 84.55 3.53 1.1460 9 3 6 12 87.85 1.63 1.1113 11 3 2 12 87.85 1.54 1.1113 7 7 6 12 87.85 1.01 1.1113 11 2 3 12 89.50 1.19 1.0951 8 7 5 12 89.50 1.34 1.0951 8 5 7 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.