Cavansite Danisi R M, Armbruster T, Lazic B American Mineralogist 97 (2012) 1874-1880 In situ dehydration behavior of zeolite-like cavansite: A single-crystal X-ray study Note: T = 175 C Locality: Wagholi quarry, Poona district, India _database_code_amcsd 0019720 CELL PARAMETERS: 9.4746 13.2620 9.6050 90.000 90.000 90.000 SPACE GROUP: Pnma X-RAY WAVELENGTH: 1.541838 Cell Volume: 1206.889 Density (g/cm3): 2.265 MAX. ABS. INTENSITY / VOLUME**2: 13.89098276 RIR: 1.997 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 11.37 100.00 7.7791 0 1 1 4 13.13 52.53 6.7452 1 0 1 4 13.35 9.24 6.6310 0 2 0 2 14.73 21.82 6.0122 1 1 1 8 18.73 1.42 4.7373 2 0 0 2 18.77 7.29 4.7287 1 2 1 8 19.90 5.44 4.4612 2 1 0 4 20.74 19.11 4.2836 1 0 2 4 20.91 5.73 4.2486 2 0 1 4 21.80 9.09 4.0763 1 1 2 8 21.97 5.09 4.0461 2 1 1 8 22.86 13.18 3.8895 0 2 2 4 23.07 24.41 3.8547 2 2 0 4 24.89 8.55 3.5773 2 2 1 8 26.43 8.44 3.3726 2 0 2 4 26.89 43.78 3.3155 0 4 0 2 27.28 3.11 3.2686 2 1 2 8 28.68 11.19 3.1123 0 1 3 4 29.15 1.84 3.0633 2 3 1 8 29.45 4.50 3.0332 1 0 3 4 29.72 10.68 3.0061 2 2 2 8 30.03 2.91 2.9755 1 4 1 8 30.55 1.03 2.9262 3 1 1 8 32.46 2.54 2.7583 1 2 3 8 32.76 17.94 2.7334 3 2 1 8 32.82 2.10 2.7285 0 4 2 4 33.42 4.13 2.6814 2 3 2 8 33.79 5.69 2.6527 2 0 3 4 34.20 2.89 2.6219 1 4 2 8 34.59 2.90 2.5930 0 3 3 4 35.10 1.75 2.5567 0 5 1 4 35.91 2.13 2.5011 1 3 3 8 36.18 5.49 2.4825 3 3 1 8 36.48 1.57 2.4629 2 2 3 8 36.65 4.07 2.4518 3 2 2 8 37.45 2.02 2.4012 0 0 4 2 38.61 2.54 2.3318 4 1 0 4 38.68 3.51 2.3277 1 0 4 4 38.91 1.77 2.3143 2 5 0 4 39.30 1.34 2.2926 1 1 4 8 39.62 7.83 2.2746 2 3 3 8 39.78 9.59 2.2658 3 3 2 8 40.10 1.51 2.2484 3 0 3 4 40.55 2.68 2.2246 3 4 1 8 42.45 1.11 2.1293 3 2 3 8 43.34 2.08 2.0878 4 3 0 4 43.85 2.74 2.0647 3 4 2 8 44.35 3.98 2.0425 0 5 3 4 44.45 1.62 2.0381 2 2 4 8 44.80 1.83 2.0230 4 2 2 8 45.16 1.50 2.0079 0 6 2 4 45.25 2.64 2.0041 3 3 3 8 45.27 2.30 2.0030 2 6 0 4 46.71 2.83 1.9448 0 4 4 4 47.57 2.29 1.9115 3 0 4 4 47.84 1.59 1.9012 0 1 5 4 48.15 1.64 1.8897 4 4 1 8 48.86 1.74 1.8640 1 1 5 8 49.00 3.55 1.8591 5 0 1 4 49.29 2.58 1.8487 2 6 2 8 51.34 3.44 1.7795 3 6 1 8 52.13 1.83 1.7545 3 3 4 8 52.36 1.61 1.7473 5 1 2 8 54.13 1.32 1.6944 3 6 2 8 55.43 1.86 1.6578 0 8 0 2 55.49 1.31 1.6560 3 4 4 8 55.64 1.86 1.6518 2 7 2 8 56.50 1.42 1.6288 3 1 5 8 56.77 1.45 1.6216 5 4 1 8 57.53 1.65 1.6019 3 7 1 8 57.88 2.55 1.5932 3 2 5 8 58.27 1.15 1.5835 5 2 3 8 59.82 1.13 1.5460 1 8 2 8 60.00 3.43 1.5417 2 7 3 8 60.12 3.89 1.5390 3 7 2 8 62.48 1.41 1.4865 1 3 6 8 62.81 1.63 1.4795 4 7 0 4 62.86 2.22 1.4784 2 2 6 8 62.87 1.87 1.4783 5 1 4 8 63.92 1.35 1.4565 0 9 1 4 64.30 1.18 1.4488 3 7 3 8 65.96 1.34 1.4162 6 0 3 4 66.28 1.14 1.4102 6 4 1 8 67.06 1.29 1.3957 3 5 5 8 69.70 2.35 1.3490 5 0 5 4 70.33 1.14 1.3386 0 9 3 4 71.61 1.35 1.3177 3 6 5 8 72.91 1.67 1.2974 5 5 4 8 76.19 1.27 1.2496 5 4 5 8 77.15 1.20 1.2364 3 2 7 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.