Erionite-Ca Gualtieri A, Artioli G, Passaglia E, Bigi S, Viani A, Hanson J C American Mineralogist 83 (1998) 590-606 Crystal structure-crystal chemistry relationships in the zeolites erionite and offretite Sample from Tunguska _database_code_amcsd 0002003 CELL PARAMETERS: 13.3040 13.3040 15.0780 90.000 90.000 120.000 SPACE GROUP: P6_3/mmc X-RAY WAVELENGTH: 1.541838 Cell Volume: 2311.207 Density (g/cm3): 2.144 MAX. ABS. INTENSITY / VOLUME**2: 5.112162510 RIR: 0.776 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 7.67 100.00 11.5216 1 0 0 6 9.66 4.49 9.1548 1 0 1 12 11.74 20.78 7.5390 0 0 2 2 13.31 53.13 6.6520 1 1 0 6 14.04 8.14 6.3085 1 0 2 12 15.38 5.55 5.7608 2 0 0 6 16.47 6.80 5.3814 2 0 1 12 19.27 28.57 4.6068 1 0 3 12 19.39 8.96 4.5774 2 0 2 12 20.39 46.26 4.3548 2 1 0 12 21.24 9.69 4.1838 2 1 1 24 23.16 14.10 3.8405 3 0 0 6 23.49 1.62 3.7872 2 0 3 12 23.59 65.57 3.7709 2 1 2 24 23.60 6.19 3.7695 0 0 4 2 23.91 1.09 3.7217 3 0 1 12 24.85 53.48 3.5826 1 0 4 12 26.04 2.30 3.4221 3 0 2 12 26.80 14.51 3.3260 2 2 0 6 27.09 14.12 3.2912 2 1 3 24 27.19 1.28 3.2795 1 1 4 12 27.92 5.11 3.1955 3 1 0 12 28.29 25.85 3.1542 2 0 4 12 29.35 1.07 3.0430 2 2 2 12 30.38 2.46 2.9421 3 1 2 24 30.65 7.88 2.9173 1 0 5 12 31.05 34.23 2.8804 4 0 0 6 31.39 56.40 2.8501 2 1 4 24 31.62 15.18 2.8292 4 0 1 12 33.22 8.49 2.6966 3 1 3 24 33.30 16.79 2.6907 4 0 2 12 33.54 9.76 2.6717 2 0 5 12 33.91 1.98 2.6432 3 2 0 12 35.71 12.99 2.5142 4 1 0 12 35.94 1.39 2.4991 4 0 3 12 36.01 10.31 2.4944 3 2 2 24 36.01 5.54 2.4940 2 2 4 12 36.23 8.86 2.4792 2 1 5 24 38.29 3.22 2.3508 1 1 6 12 40.69 15.12 2.2173 3 3 0 6 41.92 1.77 2.1550 4 2 1 24 42.50 2.65 2.1272 3 3 2 12 42.70 1.24 2.1173 1 0 7 12 43.19 1.19 2.0947 5 0 3 12 43.25 5.03 2.0919 4 2 2 24 44.93 1.80 2.0176 2 0 7 12 45.45 1.55 1.9955 5 1 2 24 45.64 1.83 1.9877 3 2 5 24 46.17 4.42 1.9661 5 0 4 12 47.06 1.37 1.9311 4 1 5 24 48.27 1.11 1.8854 4 2 4 24 48.29 9.61 1.8848 0 0 8 2 48.43 3.92 1.8794 4 3 1 24 48.97 1.93 1.8600 1 0 8 12 49.40 3.26 1.8449 5 2 0 12 51.41 19.81 1.7774 4 1 6 24 51.56 1.00 1.7724 4 3 3 24 52.05 1.03 1.7570 6 1 0 12 53.09 4.88 1.7250 4 0 7 12 53.55 2.77 1.7112 6 1 2 24 53.72 2.14 1.7062 5 1 5 24 53.99 1.85 1.6984 5 0 6 12 55.24 12.75 1.6630 4 4 0 6 55.25 4.19 1.6626 3 3 6 12 55.39 1.14 1.6586 6 1 3 24 56.22 1.58 1.6362 5 3 1 24 57.45 1.45 1.6040 4 3 5 24 57.70 1.52 1.5978 6 2 0 12 57.91 8.01 1.5925 6 1 4 24 58.53 1.81 1.5771 4 0 8 12 59.10 1.64 1.5630 6 2 2 24 60.70 1.01 1.5258 6 0 6 12 61.49 3.11 1.5081 4 1 8 24 63.01 1.81 1.4752 5 4 0 12 63.21 1.68 1.4711 6 2 4 24 64.33 1.43 1.4482 4 0 9 12 65.06 2.33 1.4337 8 0 1 12 65.51 3.10 1.4248 2 1 10 24 66.05 1.29 1.4145 7 1 4 24 67.54 4.70 1.3868 4 4 6 12 68.28 3.79 1.3737 5 4 4 24 69.92 1.22 1.3454 8 0 4 12 70.49 3.79 1.3358 4 0 10 12 71.68 1.37 1.3166 6 4 1 24 72.12 1.60 1.3097 3 2 10 24 74.05 4.22 1.2802 9 0 0 6 74.77 1.47 1.2697 8 1 4 24 75.33 1.12 1.2617 5 0 10 12 76.37 3.40 1.2470 4 4 8 12 76.38 1.03 1.2468 3 3 10 12 76.91 1.24 1.2396 4 2 10 24 77.94 4.13 1.2258 7 3 4 24 84.71 1.15 1.1442 6 1 10 24 85.04 1.00 1.1407 9 0 6 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.