Chabazite-Sr Alberti A, Galli E, Vezzalini G, Passaglia E, Zanazzi P F Zeolites 2 (1982) 303-309 Position of cations and water molecules in hydrated chabazite. Natural and Na-, Ca-, Sr- and K-exchanged chabazites Locality: Keller, Nidda, Germany Note: Sr-exchanged _database_code_amcsd 0017690 CELL PARAMETERS: 9.4160 9.4160 9.4160 93.870 93.870 93.870 SPACE GROUP: R-3m X-RAY WAVELENGTH: 1.541838 Cell Volume: 828.850 Density (g/cm3): 2.213 MAX. ABS. INTENSITY / VOLUME**2: 5.587834356 RIR: 0.822 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 9.44 92.26 9.3699 1 0 0 6 13.84 4.21 6.3980 1 1 0 6 15.98 44.52 5.5451 1 -1 1 6 17.54 35.25 5.0561 1 1 1 2 18.94 4.67 4.6849 2 0 0 6 20.57 100.00 4.3172 0 -1 2 12 22.38 24.33 3.9717 1 -2 1 6 22.97 23.18 3.8722 2 -1 1 12 24.64 40.67 3.6135 2 1 1 6 25.90 6.92 3.4396 0 -2 2 6 27.63 5.66 3.2289 2 -2 1 12 27.89 8.12 3.1990 2 2 0 6 28.58 3.47 3.1233 3 0 0 6 30.40 11.49 2.9399 2 2 1 6 30.59 79.55 2.9229 -1 -1 3 6 30.83 32.87 2.9007 3 1 0 12 32.29 6.11 2.7726 2 -2 2 6 33.14 21.18 2.7034 3 1 1 6 33.31 2.88 2.6902 0 -2 3 12 34.49 44.62 2.6001 2 -3 1 12 34.89 4.32 2.5716 3 -2 1 12 35.68 54.00 2.5160 3 2 0 12 36.05 2.08 2.4914 3 -1 2 12 37.92 1.17 2.3729 3 2 1 12 38.95 2.14 2.3123 3 -2 2 12 39.29 16.78 2.2930 0 -3 3 6 39.64 1.43 2.2734 -1 -1 4 6 40.36 4.74 2.2348 4 1 0 12 40.50 2.18 2.2273 3 -3 1 12 41.85 1.31 2.1586 0 -2 4 12 42.67 2.48 2.1190 -1 -2 4 12 43.33 13.51 2.0883 4 -2 1 12 43.96 1.43 2.0596 3 -3 2 12 44.62 3.68 2.0307 4 -1 2 12 44.93 3.54 2.0177 3 -2 3 6 48.58 2.56 1.8740 5 0 0 6 48.62 1.53 1.8725 3 3 2 6 50.34 6.48 1.8125 4 -1 3 12 50.34 12.10 1.8125 5 1 0 12 50.48 2.62 1.8081 5 -1 1 12 50.52 1.35 1.8067 4 2 2 6 50.59 4.38 1.8041 3 -4 2 12 51.73 3.13 1.7670 -1 -2 5 12 52.32 1.86 1.7487 4 -2 3 12 52.36 6.06 1.7475 4 3 1 12 53.26 20.75 1.7198 0 -4 4 6 53.99 5.00 1.6985 5 -1 2 12 54.44 5.71 1.6854 3 3 3 2 55.87 1.10 1.6456 5 -2 2 12 55.98 6.32 1.6426 -1 -3 5 12 56.13 4.84 1.6386 4 -3 3 12 59.28 13.62 1.5588 0 -1 6 12 61.05 2.91 1.5179 0 -4 5 12 61.19 2.62 1.5148 0 -2 6 12 61.64 2.26 1.5047 4 3 3 6 62.57 1.93 1.4844 4 -3 4 6 62.68 4.42 1.4822 3 -5 3 6 64.08 1.31 1.4531 6 -1 2 12 64.18 3.77 1.4510 5 -3 3 12 64.29 1.18 1.4490 4 -5 2 12 65.66 2.57 1.4220 6 -2 2 12 66.01 3.28 1.4153 6 -3 1 12 66.06 3.02 1.4143 5 4 0 12 66.06 3.08 1.4143 6 2 1 12 67.44 1.33 1.3887 -2 -3 6 12 68.89 1.60 1.3629 6 -3 2 12 69.18 1.07 1.3580 6 3 0 12 69.55 8.31 1.3517 6 2 2 6 71.23 10.50 1.3239 3 -6 3 6 71.46 1.30 1.3201 5 -5 2 12 71.95 2.33 1.3124 0 -2 7 12 71.98 1.78 1.3119 7 1 0 12 72.17 2.58 1.3088 -1 -2 7 12 73.73 1.03 1.2850 5 -1 5 6 74.02 2.64 1.2807 -2 -2 7 6 74.02 2.60 1.2807 4 -5 4 6 74.09 2.06 1.2796 5 5 0 6 75.17 1.93 1.2639 0 -3 7 12 76.06 2.08 1.2514 5 5 1 6 77.54 1.00 1.2312 6 4 1 12 77.91 6.79 1.2262 6 -4 3 12 79.59 1.07 1.2045 6 3 3 6 79.65 5.20 1.2037 7 -1 3 12 83.75 1.29 1.1550 7 -4 2 12 85.81 1.27 1.1324 7 -1 4 12 89.51 1.29 1.0949 6 -5 4 12 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.