Boggsite Arletti R, Quartieri S, Vezzalini G American Mineralogist 95 (2010) 1247-1256 Elastic behavior of zeolite boggsite in silicon oil and aqueous medium: A case of high-pressure-induced over hydration, Sample: P = 0.0 GPa on release of pressure Note: assignment of site chemistry does not match chemical analysis _database_code_amcsd 0017095 CELL PARAMETERS: 20.3260 23.8830 12.8360 90.000 90.000 90.000 SPACE GROUP: Imma X-RAY WAVELENGTH: 1.541838 Cell Volume: 6231.183 Density (g/cm3): 2.039 MAX. ABS. INTENSITY / VOLUME**2: 4.454233493 RIR: 0.711 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 7.40 51.10 11.9415 0 2 0 2 7.82 87.77 11.3065 0 1 1 4 8.15 35.58 10.8531 1 0 1 4 8.70 26.97 10.1630 2 0 0 2 11.02 7.43 8.0316 1 2 1 8 11.43 8.18 7.7395 2 2 0 4 11.71 2.34 7.5584 2 1 1 8 13.09 20.74 6.7654 0 3 1 4 13.80 1.60 6.4180 0 0 2 2 14.78 12.81 5.9919 3 0 1 4 14.84 2.27 5.9707 0 4 0 2 14.94 9.62 5.9286 1 1 2 8 15.68 12.04 5.6532 0 2 2 4 15.74 1.65 5.6317 2 3 1 8 16.33 2.91 5.4265 2 0 2 4 16.95 2.00 5.2313 1 4 1 8 17.45 9.33 5.0815 4 0 0 2 17.95 7.06 4.9403 2 2 2 8 19.15 1.55 4.6349 4 1 1 8 19.41 9.58 4.5732 3 1 2 8 19.83 43.92 4.4767 0 5 1 4 20.31 44.35 4.3715 0 4 2 4 21.00 3.45 4.2294 3 4 1 8 21.09 4.82 4.2116 0 1 3 4 21.22 2.58 4.1869 1 0 3 4 21.88 1.15 4.0631 4 3 1 8 22.11 16.24 4.0213 3 3 2 8 22.14 2.78 4.0158 2 4 2 8 22.33 2.44 3.9805 0 6 0 2 22.86 2.77 3.8908 2 1 3 8 22.95 100.00 3.8755 5 0 1 4 23.61 17.53 3.7688 0 3 3 4 23.63 1.56 3.7655 1 5 2 8 23.81 1.07 3.7371 1 6 1 8 24.01 5.20 3.7064 2 6 0 4 24.14 18.70 3.6862 5 2 1 8 24.61 39.21 3.6177 3 0 3 4 25.20 8.26 3.5337 2 3 3 8 25.99 4.83 3.4281 1 4 3 8 26.22 40.76 3.3993 5 1 2 8 26.31 2.59 3.3877 6 0 0 2 26.35 70.26 3.3827 0 6 2 4 26.73 9.46 3.3354 3 5 2 8 26.89 12.31 3.3156 3 6 1 8 27.49 2.53 3.2451 6 1 1 8 27.80 11.45 3.2096 2 6 2 8 27.80 2.63 3.2090 0 0 4 2 28.00 3.28 3.1870 0 5 3 4 28.86 6.43 3.0941 3 4 3 8 29.18 3.99 3.0601 2 0 4 4 29.93 10.31 2.9854 0 8 0 2 29.98 1.08 2.9801 1 7 2 8 30.15 1.09 2.9643 2 2 4 8 30.33 5.92 2.9471 5 0 3 4 30.35 3.55 2.9449 1 3 4 8 31.00 9.78 2.8848 1 6 3 8 31.06 5.53 2.8790 3 1 4 8 31.07 1.84 2.8785 1 8 1 8 31.65 4.57 2.8266 0 4 4 4 32.10 5.09 2.7884 5 5 2 8 32.24 3.78 2.7768 5 6 1 8 32.89 2.19 2.7233 2 4 4 8 33.16 1.88 2.7014 6 5 1 8 33.46 2.28 2.6777 6 4 2 8 33.47 2.08 2.6772 3 6 3 8 33.92 16.92 2.6427 5 4 3 8 34.28 1.05 2.6157 2 8 2 8 34.51 14.08 2.5987 0 9 1 4 35.07 4.23 2.5589 7 4 1 8 35.33 3.12 2.5408 8 0 0 2 35.77 2.91 2.5106 7 3 2 8 36.24 3.34 2.4790 3 5 4 8 36.37 1.17 2.4702 4 4 4 8 36.78 6.12 2.4433 0 3 5 4 37.15 2.33 2.4204 5 7 2 8 37.45 2.27 2.4015 5 3 4 8 37.46 1.24 2.4006 3 0 5 4 37.66 2.49 2.3883 0 10 0 2 37.99 5.23 2.3686 5 6 3 8 38.05 1.67 2.3650 5 8 1 8 38.51 1.06 2.3379 8 4 0 4 38.92 1.01 2.3143 7 5 2 8 39.12 1.02 2.3026 3 8 3 8 39.98 5.68 2.2551 0 9 3 4 40.56 1.19 2.2243 9 0 1 4 41.31 1.20 2.1858 0 8 4 4 41.51 1.28 2.1755 8 1 3 8 41.61 2.55 2.1706 5 0 5 4 42.14 1.39 2.1444 7 1 4 8 42.21 1.39 2.1408 0 11 1 4 42.29 1.00 2.1369 2 8 4 8 42.93 3.08 2.1067 8 3 3 8 43.91 1.04 2.0619 6 9 1 8 44.05 3.63 2.0557 3 6 5 8 44.15 1.11 2.0514 0 7 5 4 44.56 1.12 2.0332 5 10 1 8 44.58 12.03 2.0326 10 0 0 2 45.01 2.73 2.0140 0 4 6 4 45.54 8.16 1.9920 8 0 4 4 45.58 2.24 1.9902 0 12 0 2 45.67 3.40 1.9867 8 5 3 8 45.92 1.11 1.9762 3 3 6 8 46.38 7.96 1.9578 3 9 4 8 47.85 1.55 1.9009 0 12 2 4 48.30 1.31 1.8844 0 6 6 4 48.52 2.60 1.8761 3 5 6 8 49.88 1.40 1.8283 0 1 7 4 49.92 5.98 1.8269 5 9 4 8 50.26 1.32 1.8154 2 9 5 8 50.70 3.33 1.8007 8 1 5 8 51.96 1.23 1.7599 2 3 7 8 52.52 2.13 1.7423 10 6 2 8 52.66 1.82 1.7381 3 11 4 8 53.35 1.12 1.7171 10 0 4 4 55.76 6.44 1.6487 0 14 2 4 55.96 1.12 1.6431 12 3 1 8 56.16 1.59 1.6378 12 0 2 4 56.21 2.15 1.6365 8 0 6 4 56.47 1.11 1.6295 12 4 0 4 57.23 2.19 1.6096 5 4 7 8 57.36 3.50 1.6063 5 10 5 8 57.87 2.02 1.5935 0 10 6 4 58.40 2.34 1.5801 0 15 1 4 58.42 1.10 1.5798 1 14 3 8 58.48 1.45 1.5783 8 4 6 8 59.29 1.28 1.5586 12 6 0 4 59.87 1.16 1.5450 12 3 3 8 59.95 1.16 1.5430 3 14 3 8 61.24 2.50 1.5136 8 6 6 8 61.46 6.33 1.5086 0 9 7 4 61.55 1.68 1.5067 3 15 2 8 62.18 5.18 1.4930 8 9 5 8 62.21 2.52 1.4922 13 3 2 8 62.34 1.06 1.4896 5 1 8 8 62.95 2.66 1.4764 5 14 3 8 63.33 6.04 1.4686 13 0 3 4 63.66 1.04 1.4616 8 3 7 8 64.35 2.19 1.4477 13 5 2 8 64.43 2.46 1.4460 13 6 1 8 64.51 1.78 1.4445 5 15 2 8 65.62 1.00 1.4228 1 15 4 8 65.78 1.93 1.4197 8 5 7 8 66.65 1.43 1.4031 13 1 4 8 66.77 1.26 1.4009 0 11 7 4 67.46 1.10 1.3884 8 11 5 8 68.68 1.67 1.3666 0 5 9 4 69.47 3.51 1.3531 0 15 5 4 69.89 3.13 1.3459 5 15 4 8 69.90 2.10 1.3458 5 0 9 4 70.14 1.63 1.3418 8 15 1 8 71.04 2.07 1.3268 0 18 0 2 72.69 3.94 1.3008 5 9 8 8 72.93 1.52 1.2972 8 9 7 8 74.41 1.02 1.2749 5 6 9 8 75.02 1.92 1.2660 13 6 5 8 75.78 1.57 1.2553 5 18 1 8 76.32 1.09 1.2478 12 9 5 8 76.73 4.87 1.2421 13 9 4 8 78.35 1.04 1.2204 13 5 6 8 79.05 1.56 1.2114 10 9 7 8 80.44 2.01 1.1939 5 14 7 8 81.11 3.13 1.1857 5 5 10 8 81.51 1.23 1.1810 8 14 6 8 81.55 1.69 1.1804 5 19 2 8 81.59 1.21 1.1799 13 11 4 8 89.08 1.77 1.0991 13 15 2 8 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.