Ettringite Hartman M R, Berliner R Cement and Concrete Research 36 (2006) 364-370 Investigation of the structure of ettringite by time-of-flight neutron powder diffraction techniques Locality: synthetic _database_code_amcsd 0012178 CELL PARAMETERS: 11.1669 11.1669 21.3537 90.000 90.000 120.000 SPACE GROUP: P31c X-RAY WAVELENGTH: 1.541838 Cell Volume: 2306.039 Density (g/cm3): 1.791 MAX. ABS. INTENSITY / VOLUME**2: 8.588518931 RIR: 1.562 RIR based on corundum from Acta Crystallographica A38 (1982) 733-739 2-THETA INTENSITY D-SPACING H K L Multiplicity 8.28 7.05 10.6768 0 0 2 1 9.14 100.00 9.6708 1 0 0 6 10.04 11.66 8.8095 1 0 1 6 12.35 2.48 7.1676 1 0 2 6 15.46 5.41 5.7326 1 0 3 6 15.87 46.66 5.5834 1 1 0 3 17.93 14.61 4.9477 2 -1 2 3 18.35 2.75 4.8354 2 0 0 6 18.82 1.03 4.7160 2 0 1 6 18.99 27.39 4.6736 1 0 4 6 22.23 6.92 3.9998 2 0 3 6 23.05 17.47 3.8585 1 1 4 3 23.05 20.49 3.8585 2 -1 4 3 24.35 2.46 3.6552 2 1 0 6 24.71 1.40 3.6028 3 -1 1 6 24.84 10.25 3.5838 2 0 4 6 25.76 5.54 3.4582 3 -1 2 6 25.76 13.98 3.4582 2 1 2 6 27.43 1.99 3.2515 3 -1 3 6 27.43 2.88 3.2515 2 1 3 6 27.67 11.29 3.2236 3 0 0 6 29.77 1.63 3.0011 1 1 6 3 29.77 4.86 3.0011 2 -1 6 3 32.06 2.98 2.7917 2 2 0 3 32.44 29.96 2.7595 3 0 4 6 33.17 1.06 2.7009 4 -2 2 3 33.17 1.27 2.7009 2 2 2 3 33.41 3.68 2.6822 3 1 0 6 33.57 5.13 2.6692 0 0 8 1 33.68 1.10 2.6613 4 -1 1 6 34.48 6.96 2.6014 4 -1 2 6 34.48 7.04 2.6014 3 1 2 6 35.20 18.04 2.5499 2 1 6 6 35.20 18.60 2.5499 3 -1 6 6 35.78 1.41 2.5099 3 1 3 6 36.31 2.36 2.4739 4 -2 4 3 37.34 1.28 2.4082 1 1 8 3 37.53 3.54 2.3967 4 -1 4 6 37.53 3.33 2.3967 3 1 4 6 38.53 3.05 2.3368 2 0 8 6 40.67 5.62 2.2186 3 2 0 6 40.98 2.19 2.2024 4 0 4 6 41.09 16.68 2.1966 4 -2 6 3 41.09 17.66 2.1966 2 2 6 3 41.57 2.56 2.1722 5 -2 2 6 41.57 1.01 2.1722 3 2 2 6 42.19 9.69 2.1420 3 1 6 6 42.19 8.04 2.1420 4 -1 6 6 42.69 2.75 2.1181 3 2 3 6 42.85 2.79 2.1103 4 1 0 6 43.72 1.89 2.0703 5 -1 2 6 44.21 1.54 2.0487 3 2 4 6 44.21 1.91 2.0487 5 -2 4 6 46.26 1.36 1.9626 5 -1 4 6 46.98 8.00 1.9342 5 0 0 6 48.94 1.07 1.8611 3 3 0 3 49.43 4.39 1.8438 2 1 10 6 49.43 2.16 1.8438 3 -1 10 6 49.73 1.71 1.8335 6 -3 2 3 49.73 2.87 1.8335 3 3 2 3 50.17 2.11 1.8185 5 0 4 6 50.68 1.41 1.8014 6 -2 2 6 50.68 1.02 1.8014 4 2 2 6 50.96 1.20 1.7919 4 0 8 6 51.35 3.20 1.7795 0 0 12 1 52.04 1.98 1.7574 6 -3 4 3 52.04 1.77 1.7574 3 3 4 3 52.27 3.11 1.7501 1 0 12 6 52.70 1.19 1.7369 5 1 0 6 53.45 1.57 1.7144 6 -1 2 6 54.09 1.94 1.6954 2 -1 12 3 54.09 1.53 1.6954 1 1 12 3 54.96 2.68 1.6706 3 1 10 6 54.96 3.59 1.6706 4 -1 10 6 55.51 5.03 1.6554 5 -1 8 6 55.51 5.18 1.6554 4 1 8 6 55.65 1.59 1.6517 6 -1 4 6 55.65 1.57 1.6517 5 1 4 6 57.15 7.33 1.6118 6 0 0 6 58.01 1.91 1.5899 4 3 0 6 58.71 1.48 1.5725 7 -3 2 6 58.97 5.13 1.5662 5 0 8 6 60.40 1.04 1.5325 5 2 2 6 61.83 2.36 1.5006 4 -2 12 3 61.83 2.08 1.5006 2 2 12 3 69.62 1.04 1.3505 4 4 4 3 70.57 1.17 1.3346 0 0 16 1 70.81 1.06 1.3306 6 2 2 6 71.34 1.28 1.3221 1 0 16 6 72.13 1.73 1.3096 5 0 12 6 72.78 1.82 1.2995 8 -4 6 3 72.78 1.35 1.2995 4 4 6 3 74.62 1.41 1.2718 8 -1 2 6 76.48 1.03 1.2456 8 -1 4 6 ================================================================================ XPOW Copyright 1993 Bob Downs, Ranjini Swaminathan and Kurt Bartelmehs For reference, see Downs et al. (1993) American Mineralogist 78, 1104-1107.