Bornemanite Ferraris G, Belluso E, Gula A, Soboleva S V, Ageeva O A, Borutskii B E The Canadian Mineralogist 39 (2001) 1665-1673 A structure model of the layer titanosilicate bornemanite based on seidozerite and lomonosovite modules _database_code_amcsd 0005756 CELL PARAMETERS: 5.4980 7.1200 47.9500 90.000 90.000 88.400 SPACE GROUP: Ib X-RAY WAVELENGTH: 1.541838 Cell Volume: 1876.307 Density (g/cm3): 3.404 MAX. ABS. INTENSITY / VOLUME**2: 15.43425547 RIR: 1.476 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 3.69 100.00 23.9750 0 0 2 2 7.37 2.22 11.9875 0 0 4 2 11.07 42.93 7.9917 0 0 6 2 12.57 8.51 7.0401 0 1 1 2 13.62 11.09 6.5018 0 1 3 2 14.78 4.03 5.9938 0 0 8 2 15.50 4.89 5.7152 0 1 5 2 16.23 3.91 5.4601 1 0 1 2 17.06 4.74 5.1972 1 0 3 2 17.97 6.73 4.9354 0 1 7 2 18.50 2.80 4.7950 0 0 10 2 18.61 1.41 4.7683 1 0 5 2 20.48 1.45 4.3371 1 1 2 2 20.72 2.08 4.2867 1 0 7 2 21.03 12.34 4.2251 1 -1 2 2 21.47 5.16 4.1387 1 1 4 2 22.00 15.86 4.0411 1 -1 4 2 22.25 2.77 3.9958 0 0 12 2 23.03 11.77 3.8611 1 1 6 2 23.25 2.01 3.8253 1 0 9 2 23.53 14.44 3.7814 1 -1 6 2 25.07 1.26 3.5521 1 1 8 2 25.30 1.48 3.5200 0 2 2 2 25.52 20.85 3.4898 1 -1 8 2 26.02 8.09 3.4250 0 0 14 2 26.09 7.65 3.4152 1 0 11 2 26.12 4.29 3.4115 0 2 4 2 27.23 1.42 3.2748 0 1 13 2 27.44 2.58 3.2509 0 2 6 2 27.48 5.81 3.2459 1 1 10 2 27.90 2.18 3.1981 1 -1 10 2 29.16 4.09 3.0627 1 0 13 2 29.18 4.00 3.0599 0 2 8 2 29.58 20.13 3.0199 1 2 1 2 29.81 31.36 2.9969 0 0 16 2 30.06 8.65 2.9731 1 2 3 2 30.18 8.30 2.9611 1 1 12 2 30.36 16.61 2.9442 -1 2 1 2 30.66 3.51 2.9160 0 1 15 2 30.82 1.32 2.9008 -1 2 3 2 30.99 8.50 2.8857 1 2 5 2 31.30 1.39 2.8576 0 2 10 2 31.74 4.88 2.8194 -1 2 5 2 32.34 6.24 2.7679 1 2 7 2 32.40 5.74 2.7632 1 0 15 2 32.59 1.15 2.7479 2 0 0 1 32.80 16.62 2.7301 2 0 2 2 33.06 16.25 2.7092 -1 2 7 2 33.12 2.53 2.7050 1 1 14 2 33.46 10.08 2.6785 2 0 4 2 33.47 2.16 2.6772 1 -1 14 2 33.64 4.99 2.6639 0 0 18 2 34.08 16.34 2.6311 1 2 9 2 34.52 1.29 2.5986 2 0 6 2 34.71 1.38 2.5841 2 1 1 2 34.76 10.64 2.5806 -1 2 9 2 35.13 4.49 2.5546 2 1 3 2 35.39 1.65 2.5362 2 -1 1 2 35.78 2.87 2.5094 1 0 17 2 35.94 6.87 2.4985 2 1 5 2 35.95 1.90 2.4979 2 0 8 2 36.14 3.13 2.4857 1 2 11 2 36.41 1.87 2.4677 0 2 14 2 36.57 6.23 2.4572 1 -1 16 2 36.79 8.77 2.4430 -1 2 11 2 37.14 12.64 2.4209 2 1 7 2 37.97 1.14 2.3695 0 3 1 2 38.36 1.51 2.3467 0 3 3 2 38.48 5.17 2.3394 1 2 13 2 38.68 4.33 2.3278 2 1 9 2 39.10 1.78 2.3037 -1 2 13 2 39.11 5.44 2.3030 0 3 5 2 39.28 5.15 2.2934 1 0 19 2 39.30 2.14 2.2923 0 2 16 2 39.81 5.97 2.2642 2 0 12 2 39.83 3.87 2.2634 1 -1 18 2 40.23 6.53 2.2418 0 3 7 2 40.93 1.72 2.2049 2 2 0 1 41.11 1.36 2.1957 2 2 2 2 41.43 13.17 2.1795 0 0 22 2 41.66 2.90 2.1678 -1 2 15 2 41.73 1.87 2.1644 1 3 4 2 42.10 1.59 2.1462 -2 2 0 1 42.38 2.81 2.1326 0 2 18 2 42.53 8.17 2.1255 2 2 6 2 42.60 2.11 2.1223 -1 3 4 2 42.61 2.91 2.1216 1 3 6 2 42.81 4.99 2.1126 2 -2 4 2 43.74 1.86 2.0694 2 2 8 2 43.88 2.99 2.0632 1 2 17 2 44.44 1.38 2.0386 -1 2 17 2 44.66 1.35 2.0290 -1 3 8 2 45.07 1.31 2.0114 2 1 15 2 45.27 1.16 2.0033 2 2 10 2 45.33 1.93 2.0007 0 1 23 2 45.62 1.12 1.9885 2 -1 15 2 46.16 2.00 1.9666 -1 3 10 2 46.35 1.51 1.9589 2 -2 10 2 46.48 2.13 1.9539 1 1 22 2 46.59 1.49 1.9492 1 0 23 2 46.88 3.60 1.9381 1 2 19 2 47.07 1.43 1.9305 2 2 12 2 47.54 2.03 1.9127 2 0 18 2 47.69 2.69 1.9069 2 1 17 2 47.74 1.37 1.9051 0 3 15 2 48.13 4.76 1.8907 2 -2 12 2 49.21 1.12 1.8514 1 3 14 2 49.98 1.70 1.8248 -1 3 14 2 50.04 2.76 1.8226 1 2 21 2 50.12 1.98 1.8200 3 0 3 2 50.13 1.19 1.8198 2 3 1 2 50.16 1.16 1.8186 2 -2 14 2 50.25 2.12 1.8156 0 3 17 2 50.52 3.36 1.8066 2 0 20 2 50.55 7.79 1.8056 -1 2 21 2 51.35 5.48 1.7793 0 4 0 1 51.50 2.84 1.7744 0 4 2 2 51.52 1.66 1.7738 1 3 16 2 51.63 1.87 1.7702 -2 3 1 2 51.95 1.35 1.7600 0 4 4 2 52.48 2.48 1.7435 3 -1 4 2 52.53 1.48 1.7421 0 2 24 2 52.53 2.51 1.7420 -2 3 5 2 52.85 1.13 1.7324 3 0 9 2 53.37 1.93 1.7168 1 2 23 2 53.53 4.00 1.7118 3 1 8 2 53.67 1.31 1.7076 2 0 22 2 54.03 1.42 1.6972 1 4 3 2 54.32 1.25 1.6889 3 0 11 2 54.70 1.15 1.6781 -1 4 1 2 54.85 2.59 1.6738 3 1 10 2 54.99 2.15 1.6699 -1 4 3 2 55.83 1.32 1.6467 3 2 1 2 55.89 1.36 1.6451 0 3 21 2 56.05 1.77 1.6407 3 0 13 2 56.12 1.43 1.6389 3 2 3 2 56.17 1.91 1.6374 0 2 26 2 56.69 1.10 1.6238 3 2 5 2 56.83 1.49 1.6200 1 2 25 2 57.16 1.04 1.6114 2 -1 23 2 57.20 1.05 1.6106 0 1 29 2 57.23 2.14 1.6097 3 -2 1 2 57.30 1.72 1.6080 -1 2 25 2 57.75 1.05 1.5964 1 1 28 2 57.98 1.22 1.5906 1 -1 28 2 58.07 1.86 1.5884 3 -2 5 2 58.26 1.01 1.5838 3 1 14 2 58.94 1.63 1.5670 3 -1 14 2 59.65 2.49 1.5501 2 2 22 2 60.01 1.01 1.5417 3 -2 9 2 60.04 1.06 1.5409 2 1 25 2 60.45 1.06 1.5313 2 0 26 2 60.51 2.17 1.5300 0 4 16 2 61.81 2.15 1.5010 2 4 4 2 62.37 1.06 1.4889 1 0 31 2 62.76 1.32 1.4805 2 2 24 2 63.03 1.46 1.4749 -2 4 0 1 63.16 1.11 1.4721 -2 4 2 2 63.27 1.45 1.4698 3 -1 18 2 63.54 1.29 1.4643 2 1 27 2 63.97 1.17 1.4554 2 -1 27 2 64.45 1.69 1.4457 3 3 6 2 64.60 1.78 1.4428 -1 4 17 2 66.37 1.19 1.4084 3 -3 6 2 66.89 1.19 1.3987 2 -2 26 2 67.87 1.91 1.3810 0 2 32 2 69.50 1.34 1.3525 2 2 28 2 69.55 1.14 1.3517 1 5 8 2 75.66 1.05 1.2569 2 5 7 2 76.67 1.29 1.2429 2 4 22 2 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.