Konyaite Mills S J, Wilson S A, Dipple G M, Raudsepp M Mineralogical Magazine 74 (2010) 903-917 The decomposition of konyaite: importance in CO2 fixation in mine tailings Locality: synthetic _database_code_amcsd 0017884 CELL PARAMETERS: 5.7594 23.9140 8.0250 90.000 95.288 90.000 SPACE GROUP: P2_1/c X-RAY WAVELENGTH: 1.541838 Cell Volume: 1100.581 Density (g/cm3): 2.127 MAX. ABS. INTENSITY / VOLUME**2: 4.806836994 RIR: 0.736 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 7.39 100.00 11.9570 0 2 0 2 11.68 5.38 7.5789 0 1 1 4 14.82 1.07 5.9785 0 4 0 2 15.45 3.10 5.7349 1 0 0 2 15.70 5.75 5.6435 0 3 1 4 17.15 3.41 5.1709 1 2 0 4 18.54 20.32 4.7870 0 4 1 4 18.57 1.17 4.7786 -1 1 1 4 19.06 1.14 4.6553 1 3 0 4 19.66 96.15 4.5158 -1 2 1 4 20.22 20.55 4.3922 1 1 1 4 21.23 23.75 4.1855 1 2 1 4 21.36 26.97 4.1601 -1 3 1 4 22.25 29.36 3.9954 0 0 2 2 22.31 62.15 3.9857 0 6 0 2 22.56 26.87 3.9408 0 1 2 4 23.54 5.34 3.7791 -1 4 1 4 24.88 14.87 3.5791 1 4 1 4 24.93 3.00 3.5719 0 3 2 4 24.97 1.09 3.5666 0 6 1 4 25.98 3.64 3.4299 -1 0 2 2 26.10 8.43 3.4148 -1 5 1 4 26.25 13.23 3.3951 -1 1 2 4 26.84 9.79 3.3219 0 4 2 4 27.05 5.10 3.2969 -1 2 2 4 27.31 13.43 3.2650 1 5 1 4 28.38 4.62 3.1451 1 0 2 2 28.41 1.26 3.1413 0 7 1 4 28.63 4.61 3.1183 1 1 2 4 28.93 6.95 3.0862 -1 6 1 4 29.12 7.03 3.0663 0 5 2 4 30.04 11.14 2.9751 -1 4 2 4 30.04 16.40 2.9743 1 6 1 4 30.56 3.77 2.9256 1 3 2 4 31.71 9.99 2.8217 0 6 2 4 31.97 5.08 2.7998 0 8 1 4 31.99 10.49 2.7981 -1 7 1 4 32.10 14.76 2.7884 2 2 0 4 32.40 8.63 2.7630 -2 1 1 4 33.01 24.19 2.7139 1 7 1 4 33.06 3.92 2.7093 -2 2 1 4 33.20 4.65 2.6982 2 3 0 4 33.82 10.91 2.6508 1 8 0 4 33.86 12.19 2.6472 0 1 3 4 34.12 19.92 2.6279 1 5 2 4 34.14 5.69 2.6264 -2 3 1 4 34.50 2.01 2.5999 0 2 3 4 34.70 31.65 2.5854 2 4 0 4 35.02 2.50 2.5622 2 2 1 4 35.21 3.05 2.5486 -1 8 1 4 35.61 2.37 2.5214 0 9 1 4 36.39 3.74 2.4690 1 6 2 4 36.54 1.02 2.4593 2 5 0 4 36.95 1.44 2.4331 0 4 3 4 37.14 10.44 2.4205 -1 7 2 4 37.40 6.55 2.4046 -2 5 1 4 37.58 1.35 2.3935 0 8 2 4 37.63 13.71 2.3903 -1 3 3 4 37.65 4.15 2.3893 -2 2 2 4 38.68 10.10 2.3276 2 6 0 4 38.69 7.89 2.3271 0 5 3 4 38.75 1.37 2.3239 1 1 3 4 38.92 7.36 2.3139 1 7 2 4 39.17 2.06 2.3000 2 5 1 4 39.33 3.22 2.2910 0 10 1 4 39.93 1.82 2.2579 -2 4 2 4 40.56 1.01 2.2244 2 1 2 4 40.65 1.26 2.2195 -1 5 3 4 40.78 5.52 2.2125 0 9 2 4 41.10 2.10 2.1961 2 2 2 4 41.52 3.26 2.1750 1 4 3 4 41.57 1.65 2.1724 -2 5 2 4 42.00 1.97 2.1512 2 3 2 4 42.08 1.54 2.1472 -1 10 1 4 42.62 3.67 2.1213 -1 6 3 4 42.89 2.26 2.1084 1 10 1 4 43.75 7.95 2.0693 2 8 0 4 44.14 3.98 2.0519 0 10 2 4 44.40 3.59 2.0405 -2 1 3 4 44.64 3.33 2.0297 1 9 2 4 44.91 1.24 2.0185 -2 2 3 4 45.57 5.60 1.9908 0 1 4 4 45.69 2.57 1.9856 -1 11 1 4 45.71 1.95 1.9847 -2 7 2 4 45.74 2.29 1.9835 -2 3 3 4 46.45 2.64 1.9549 1 11 1 4 46.60 1.56 1.9490 2 9 0 4 46.60 1.26 1.9488 2 6 2 4 46.75 1.15 1.9430 -1 0 4 2 46.89 1.73 1.9378 0 3 4 4 46.92 1.94 1.9366 -1 1 4 4 47.15 4.83 1.9277 1 7 3 4 47.34 2.02 1.9202 -1 8 3 4 47.40 2.66 1.9178 -1 2 4 4 47.57 1.36 1.9116 3 0 0 2 48.02 1.99 1.8947 0 4 4 4 48.21 4.38 1.8877 -1 3 4 4 48.35 1.66 1.8826 -2 5 3 4 48.78 1.27 1.8667 2 9 1 4 48.92 4.32 1.8619 2 1 3 4 49.00 1.04 1.8589 3 3 0 4 49.40 4.07 1.8448 -1 12 1 4 49.64 2.38 1.8365 2 10 0 4 50.08 1.01 1.8215 -2 6 3 4 50.17 1.98 1.8184 2 3 3 4 50.31 1.15 1.8135 1 2 4 4 50.32 1.59 1.8134 -2 10 1 4 50.42 2.78 1.8101 -3 4 1 4 50.69 2.65 1.8008 3 2 1 4 50.94 1.91 1.7927 0 13 1 4 51.23 2.97 1.7833 0 12 2 4 51.35 1.26 1.7795 0 10 3 4 51.46 3.74 1.7758 3 3 1 4 52.39 3.43 1.7465 -1 6 4 4 53.11 1.32 1.7245 0 7 4 4 53.44 2.27 1.7146 -3 4 2 4 53.44 4.06 1.7145 -3 6 1 4 53.49 2.12 1.7130 1 5 4 4 53.59 1.87 1.7100 2 9 2 4 53.66 1.16 1.7081 0 14 0 2 53.68 1.37 1.7074 -2 10 2 4 53.90 2.27 1.7010 1 13 1 4 54.02 2.46 1.6976 -2 2 4 4 54.48 1.97 1.6842 0 11 3 4 54.85 2.03 1.6739 2 11 1 4 54.95 1.27 1.6709 0 13 2 4 55.31 1.32 1.6609 0 8 4 4 55.46 2.02 1.6567 3 6 1 4 55.72 1.39 1.6498 3 2 2 4 56.19 2.94 1.6371 1 14 0 4 56.36 1.26 1.6325 2 10 2 4 56.44 1.57 1.6305 3 3 2 4 56.97 1.12 1.6164 1 7 4 4 57.05 3.65 1.6143 -2 5 4 4 57.14 1.10 1.6121 -1 14 1 4 57.74 1.19 1.5968 0 9 4 4 58.69 1.30 1.5730 3 5 2 4 58.79 1.85 1.5706 0 14 2 4 58.88 1.23 1.5684 -1 9 4 4 59.27 1.09 1.5591 2 2 4 4 61.41 2.27 1.5098 1 9 4 4 61.49 1.49 1.5080 -1 10 4 4 61.74 1.10 1.5024 3 9 1 4 61.98 1.26 1.4972 3 7 2 4 62.14 1.96 1.4939 2 5 4 4 62.28 2.81 1.4907 -2 11 3 4 63.55 2.43 1.4641 3 3 3 4 65.06 2.09 1.4337 4 0 0 2 65.17 3.11 1.4314 2 14 1 4 65.34 1.24 1.4282 -2 12 3 4 66.20 1.60 1.4117 -4 3 1 4 66.36 1.02 1.4087 -3 4 4 4 67.27 1.20 1.3917 2 8 4 4 67.55 1.60 1.3867 -3 9 3 4 68.70 1.08 1.3662 1 17 0 4 70.03 2.05 1.3436 1 8 5 4 70.50 1.55 1.3358 -1 13 4 4 74.79 1.15 1.2694 -3 3 5 4 76.91 1.04 1.2396 -3 10 4 4 79.26 1.46 1.2087 -2 11 5 4 81.77 1.28 1.1779 -4 9 3 4 83.77 1.01 1.1547 1 18 3 4 84.01 1.08 1.1520 3 4 5 4 86.47 1.08 1.1254 -5 2 2 4 86.64 1.27 1.1236 2 17 3 4 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.